Split (1)

train · 5k rows

image_id stringlengths 1 7	prompt_open stringclasses 867 values	prompt_close stringclasses 867 values	objects stringlengths 90 2.59k	relationships stringlengths 60 10.2k
1	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tree.1", "bbox": [0, 0, 799, 557]}, {"id": "sidewalk.2", "bbox": [75, 306, 798, 596]}, {"id": "building.3", "bbox": [0, 0, 222, 538]}, {"id": "street.4", "bbox": [437, 280, 796, 539]}, {"id": "clock.5", "bbox": [419, 60, 496, 424]}, {"id": "window.6", "bbox": [600, 0, 799, 147]}, {"id": "man.7", "bbox": [369, 262, 446, 512]}, {"id": "man.8", "bbox": [236, 246, 296, 508]}, {"id": "sign.9", "bbox": [121, 11, 200, 191]}, {"id": "car.10", "bbox": [717, 340, 797, 504]}, {"id": "shirt.11", "bbox": [364, 293, 446, 393]}, {"id": "car.12", "bbox": [476, 317, 554, 413]}, {"id": "pant.13", "bbox": [386, 367, 435, 496]}, {"id": "shirt.14", "bbox": [239, 285, 294, 389]}, {"id": "pant.15", "bbox": [242, 382, 287, 501]}, {"id": "shoe.16", "bbox": [386, 483, 435, 511]}, {"id": "arm.17", "bbox": [367, 282, 398, 324]}, {"id": "bike.18", "bbox": [335, 317, 362, 353]}, {"id": "bike.19", "bbox": [318, 308, 346, 350]}, {"id": "glass.20", "bbox": [446, 315, 490, 339]}, {"id": "street.21", "bbox": [75, 326, 789, 589]}, {"id": "sneaker.22", "bbox": [240, 487, 292, 514]}, {"id": "bike.23", "bbox": [319, 317, 360, 352]}]	[{"subject": "man.8", "predicate": "wears", "object": "sneaker.22"}, {"subject": "sign.9", "predicate": "on", "object": "building.3"}, {"subject": "man.8", "predicate": "has", "object": "shirt.14"}, {"subject": "sidewalk.2", "predicate": "near", "object": "street.4"}, {"subject": "man.8", "predicate": "has", "object": "glass.20"}, {"subject": "man.8", "predicate": "wears", "object": "sneaker.22"}, {"subject": "man.7", "predicate": "has", "object": "shoe.16"}, {"subject": "man.8", "predicate": "has", "object": "shirt.14"}, {"subject": "man.8", "predicate": "wears", "object": "pant.15"}, {"subject": "man.7", "predicate": "has", "object": "shirt.11"}, {"subject": "man.7", "predicate": "has", "object": "pant.13"}, {"subject": "bike.19", "predicate": "parked on", "object": "sidewalk.2"}, {"subject": "bike.18", "predicate": "parked on", "object": "sidewalk.2"}, {"subject": "car.10", "predicate": "parked on", "object": "street.4"}, {"subject": "bike.18", "predicate": "on", "object": "sidewalk.2"}, {"subject": "man.8", "predicate": "wearing", "object": "shirt.14"}, {"subject": "bike.23", "predicate": "near", "object": "tree.1"}, {"subject": "man.7", "predicate": "wearing", "object": "shoe.16"}, {"subject": "bike.23", "predicate": "near", "object": "tree.1"}, {"subject": "shirt.14", "predicate": "on", "object": "man.8"}, {"subject": "man.8", "predicate": "wearing", "object": "glass.20"}, {"subject": "man.8", "predicate": "in", "object": "shirt.14"}, {"subject": "man.8", "predicate": "wearing", "object": "pant.15"}, {"subject": "tree.1", "predicate": "near", "object": "street.4"}, {"subject": "man.8", "predicate": "wearing", "object": "glass.20"}, {"subject": "bike.23", "predicate": "behind", "object": "man.8"}, {"subject": "tree.1", "predicate": "near", "object": "sidewalk.2"}, {"subject": "man.7", "predicate": "wearing", "object": "shirt.11"}, {"subject": "building.3", "predicate": "with", "object": "window.6"}]
2	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "sidewalk.1", "bbox": [318, 345, 796, 598]}, {"id": "building.2", "bbox": [567, 0, 796, 414]}, {"id": "building.3", "bbox": [168, 0, 427, 319]}, {"id": "man.4", "bbox": [319, 322, 461, 568]}, {"id": "pole.5", "bbox": [421, 0, 470, 533]}, {"id": "window.6", "bbox": [646, 66, 741, 232]}, {"id": "car.7", "bbox": [237, 351, 364, 460]}, {"id": "tree.8", "bbox": [0, 144, 89, 364]}, {"id": "tree.9", "bbox": [100, 192, 207, 354]}, {"id": "tree.10", "bbox": [56, 153, 118, 358]}, {"id": "window.11", "bbox": [642, 260, 741, 371]}, {"id": "window.12", "bbox": [744, 68, 797, 230]}, {"id": "car.13", "bbox": [348, 335, 429, 396]}, {"id": "window.14", "bbox": [747, 261, 796, 368]}, {"id": "window.15", "bbox": [629, 71, 648, 242]}, {"id": "bike.16", "bbox": [415, 403, 463, 466]}]	[{"subject": "building.2", "predicate": "has", "object": "window.6"}, {"subject": "building.2", "predicate": "has", "object": "window.12"}, {"subject": "building.2", "predicate": "has", "object": "window.11"}, {"subject": "building.2", "predicate": "has", "object": "window.14"}, {"subject": "building.2", "predicate": "has", "object": "window.15"}, {"subject": "bike.16", "predicate": "near", "object": "car.7"}]
3	Generate a structured scene graph for an image of size (640 x 480) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (640 x 480) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [128, 230, 636, 474]}, {"id": "girl.2", "bbox": [523, 93, 636, 231]}, {"id": "bag.3", "bbox": [572, 272, 638, 402]}, {"id": "hair.4", "bbox": [582, 96, 638, 205]}, {"id": "drawer.5", "bbox": [1, 421, 131, 465]}, {"id": "handle.6", "bbox": [16, 355, 90, 388]}, {"id": "desk.7", "bbox": [530, 158, 598, 215]}, {"id": "drawer.8", "bbox": [0, 319, 128, 442]}]	[{"subject": "girl.2", "predicate": "has", "object": "hair.4"}, {"subject": "bag.3", "predicate": "on", "object": "table.1"}, {"subject": "girl.2", "predicate": "has", "object": "hair.4"}, {"subject": "girl.2", "predicate": "with", "object": "hair.4"}, {"subject": "girl.2", "predicate": "with", "object": "hair.4"}, {"subject": "drawer.8", "predicate": "has", "object": "handle.6"}]
4	Generate a structured scene graph for an image of size (640 x 480) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (640 x 480) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "curtain.1", "bbox": [363, 0, 640, 300]}, {"id": "window.2", "bbox": [483, 0, 637, 305]}, {"id": "table.3", "bbox": [411, 239, 639, 432]}, {"id": "door.4", "bbox": [365, 0, 485, 334]}, {"id": "chair.5", "bbox": [387, 210, 480, 383]}, {"id": "pillow.6", "bbox": [181, 221, 289, 305]}, {"id": "desk.7", "bbox": [0, 341, 63, 479]}, {"id": "lamp.8", "bbox": [214, 63, 263, 211]}, {"id": "box.9", "bbox": [458, 164, 511, 187]}]	[{"subject": "chair.5", "predicate": "near", "object": "table.3"}]
5	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 799, 599]}, {"id": "shelf.2", "bbox": [432, 132, 798, 226]}, {"id": "book.3", "bbox": [432, 157, 453, 221]}, {"id": "chair.4", "bbox": [142, 357, 316, 596]}, {"id": "chair.5", "bbox": [375, 350, 541, 599]}, {"id": "window.6", "bbox": [35, 42, 131, 427]}, {"id": "desk.7", "bbox": [125, 360, 439, 463]}, {"id": "door.8", "bbox": [0, 5, 34, 529]}, {"id": "railing.9", "bbox": [46, 328, 128, 425]}, {"id": "light.10", "bbox": [68, 0, 182, 39]}, {"id": "paper.11", "bbox": [632, 466, 670, 532]}, {"id": "chair.12", "bbox": [139, 350, 547, 592]}]	[{"subject": "book.3", "predicate": "on", "object": "shelf.2"}, {"subject": "book.3", "predicate": "on", "object": "shelf.2"}, {"subject": "chair.4", "predicate": "near", "object": "desk.7"}, {"subject": "book.3", "predicate": "on", "object": "shelf.2"}]
6	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "counter.1", "bbox": [0, 8, 799, 532]}, {"id": "chair.2", "bbox": [0, 0, 300, 521]}, {"id": "bottle.3", "bbox": [474, 75, 596, 382]}, {"id": "plate.4", "bbox": [35, 100, 274, 213]}, {"id": "bowl.5", "bbox": [392, 0, 605, 127]}, {"id": "bag.6", "bbox": [626, 99, 771, 257]}, {"id": "bag.7", "bbox": [347, 46, 481, 181]}, {"id": "leg.8", "bbox": [135, 309, 217, 512]}, {"id": "logo.9", "bbox": [482, 254, 590, 367]}, {"id": "food.10", "bbox": [351, 100, 468, 178]}, {"id": "leg.11", "bbox": [4, 265, 60, 396]}, {"id": "glass.12", "bbox": [190, 0, 250, 98]}, {"id": "glass.13", "bbox": [272, 0, 327, 78]}, {"id": "fork.14", "bbox": [108, 135, 165, 209]}]	[{"subject": "fork.14", "predicate": "on", "object": "plate.4"}, {"subject": "chair.2", "predicate": "near", "object": "counter.1"}, {"subject": "chair.2", "predicate": "against", "object": "counter.1"}, {"subject": "bag.6", "predicate": "on", "object": "counter.1"}, {"subject": "bowl.5", "predicate": "on", "object": "counter.1"}, {"subject": "food.10", "predicate": "in", "object": "bag.7"}, {"subject": "bag.7", "predicate": "on", "object": "counter.1"}, {"subject": "food.10", "predicate": "in", "object": "bag.7"}, {"subject": "glass.13", "predicate": "on", "object": "counter.1"}, {"subject": "glass.12", "predicate": "on", "object": "counter.1"}, {"subject": "food.10", "predicate": "in", "object": "bag.7"}, {"subject": "fork.14", "predicate": "on", "object": "plate.4"}, {"subject": "glass.13", "predicate": "on", "object": "counter.1"}, {"subject": "glass.12", "predicate": "on", "object": "counter.1"}, {"subject": "fork.14", "predicate": "on", "object": "plate.4"}, {"subject": "fork.14", "predicate": "on", "object": "plate.4"}, {"subject": "leg.11", "predicate": "under", "object": "counter.1"}, {"subject": "chair.2", "predicate": "has", "object": "leg.8"}, {"subject": "chair.2", "predicate": "has", "object": "leg.11"}, {"subject": "bottle.3", "predicate": "has", "object": "logo.9"}, {"subject": "bag.7", "predicate": "of", "object": "food.10"}]
7	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "window.1", "bbox": [486, 0, 796, 391]}, {"id": "woman.2", "bbox": [0, 311, 310, 596]}, {"id": "desk.3", "bbox": [71, 356, 667, 512]}, {"id": "book.4", "bbox": [425, 417, 616, 514]}, {"id": "desk.5", "bbox": [578, 453, 797, 597]}, {"id": "laptop.6", "bbox": [588, 478, 764, 561]}, {"id": "chair.7", "bbox": [0, 536, 319, 596]}, {"id": "paper.8", "bbox": [60, 343, 168, 409]}, {"id": "book.9", "bbox": [86, 412, 181, 457]}, {"id": "pant.10", "bbox": [87, 552, 310, 591]}, {"id": "book.11", "bbox": [704, 531, 767, 571]}, {"id": "hair.12", "bbox": [0, 312, 39, 393]}, {"id": "lady.13", "bbox": [3, 314, 148, 583]}]	[{"subject": "book.11", "predicate": "on", "object": "desk.5"}, {"subject": "lady.13", "predicate": "with", "object": "hair.12"}, {"subject": "woman.2", "predicate": "wearing", "object": "pant.10"}, {"subject": "laptop.6", "predicate": "above", "object": "desk.5"}, {"subject": "woman.2", "predicate": "sitting on", "object": "chair.7"}]
8	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [12, 386, 565, 599]}, {"id": "man.2", "bbox": [111, 286, 377, 599]}, {"id": "shelf.3", "bbox": [0, 0, 222, 238]}, {"id": "shirt.4", "bbox": [111, 373, 335, 598]}, {"id": "desk.5", "bbox": [580, 428, 799, 592]}, {"id": "paper.6", "bbox": [582, 315, 763, 436]}, {"id": "chair.7", "bbox": [14, 478, 145, 599]}, {"id": "drawer.8", "bbox": [362, 493, 510, 582]}, {"id": "book.9", "bbox": [121, 39, 135, 133]}, {"id": "pant.10", "bbox": [188, 529, 364, 598]}, {"id": "drawer.11", "bbox": [603, 545, 789, 598]}, {"id": "shelf.12", "bbox": [0, 213, 207, 239]}, {"id": "paper.13", "bbox": [668, 289, 800, 338]}, {"id": "book.14", "bbox": [89, 158, 138, 217]}, {"id": "paper.15", "bbox": [475, 334, 531, 403]}, {"id": "hand.16", "bbox": [335, 402, 378, 436]}, {"id": "bag.17", "bbox": [702, 289, 778, 305]}, {"id": "cup.18", "bbox": [140, 166, 165, 216]}, {"id": "cup.19", "bbox": [444, 396, 496, 471]}]	[{"subject": "cup.19", "predicate": "on", "object": "desk.1"}, {"subject": "cup.19", "predicate": "on", "object": "desk.1"}, {"subject": "man.2", "predicate": "wears", "object": "shirt.4"}, {"subject": "bag.17", "predicate": "on", "object": "paper.13"}, {"subject": "drawer.8", "predicate": "of", "object": "desk.1"}, {"subject": "cup.18", "predicate": "on", "object": "shelf.12"}, {"subject": "paper.13", "predicate": "on", "object": "desk.5"}, {"subject": "man.2", "predicate": "has", "object": "hand.16"}, {"subject": "book.9", "predicate": "on", "object": "shelf.12"}, {"subject": "man.2", "predicate": "has", "object": "hand.16"}, {"subject": "cup.19", "predicate": "on", "object": "desk.1"}, {"subject": "book.14", "predicate": "on", "object": "shelf.12"}, {"subject": "man.2", "predicate": "wearing", "object": "pant.10"}, {"subject": "man.2", "predicate": "has", "object": "shirt.4"}, {"subject": "shelf.3", "predicate": "of", "object": "book.9"}]
9	Generate a structured scene graph for an image of size (640 x 480) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (640 x 480) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [2, 0, 637, 477]}, {"id": "window.2", "bbox": [452, 80, 550, 245]}, {"id": "desk.3", "bbox": [386, 365, 636, 478]}, {"id": "shelf.4", "bbox": [166, 136, 264, 361]}, {"id": "desk.5", "bbox": [259, 258, 437, 351]}, {"id": "desk.6", "bbox": [3, 385, 166, 478]}, {"id": "chair.7", "bbox": [151, 282, 253, 428]}, {"id": "window.8", "bbox": [352, 81, 445, 239]}, {"id": "window.9", "bbox": [562, 71, 638, 254]}, {"id": "desk.10", "bbox": [181, 313, 323, 447]}, {"id": "building.11", "bbox": [560, 125, 636, 253]}, {"id": "desk.12", "bbox": [501, 240, 636, 300]}, {"id": "desk.13", "bbox": [249, 245, 433, 288]}, {"id": "tower.14", "bbox": [251, 275, 308, 349]}, {"id": "light.15", "bbox": [207, 5, 538, 93]}, {"id": "book.16", "bbox": [408, 380, 488, 423]}, {"id": "light.17", "bbox": [215, 30, 290, 51]}, {"id": "paper.18", "bbox": [425, 365, 593, 464]}, {"id": "book.19", "bbox": [195, 214, 254, 257]}, {"id": "chair.20", "bbox": [493, 221, 522, 279]}, {"id": "light.21", "bbox": [470, 61, 533, 81]}, {"id": "light.22", "bbox": [320, 71, 383, 90]}, {"id": "bottle.23", "bbox": [124, 279, 148, 318]}]	[{"subject": "room.1", "predicate": "has", "object": "light.15"}, {"subject": "bottle.23", "predicate": "on", "object": "desk.10"}, {"subject": "light.15", "predicate": "in", "object": "room.1"}, {"subject": "light.17", "predicate": "in", "object": "room.1"}, {"subject": "bottle.23", "predicate": "on", "object": "desk.10"}, {"subject": "tower.14", "predicate": "under", "object": "desk.13"}, {"subject": "light.15", "predicate": "in", "object": "room.1"}, {"subject": "book.19", "predicate": "on", "object": "shelf.4"}, {"subject": "book.16", "predicate": "on", "object": "desk.3"}, {"subject": "light.15", "predicate": "in", "object": "room.1"}, {"subject": "book.16", "predicate": "with", "object": "paper.18"}, {"subject": "book.16", "predicate": "on", "object": "desk.3"}]
10	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [0, 380, 471, 596]}, {"id": "paper.2", "bbox": [0, 417, 63, 436]}, {"id": "table.3", "bbox": [0, 396, 202, 596]}, {"id": "chair.4", "bbox": [556, 355, 712, 550]}, {"id": "coat.5", "bbox": [532, 355, 669, 567]}, {"id": "desk.6", "bbox": [697, 365, 799, 414]}, {"id": "man.7", "bbox": [580, 267, 699, 412]}, {"id": "board.8", "bbox": [140, 139, 245, 284]}, {"id": "shirt.9", "bbox": [584, 303, 698, 410]}, {"id": "book.10", "bbox": [550, 269, 588, 328]}, {"id": "screen.11", "bbox": [308, 291, 393, 366]}, {"id": "paper.12", "bbox": [455, 403, 500, 449]}, {"id": "paper.13", "bbox": [457, 357, 553, 396]}, {"id": "shelf.14", "bbox": [457, 328, 585, 344]}, {"id": "shelf.15", "bbox": [507, 475, 566, 504]}, {"id": "shelf.16", "bbox": [467, 387, 555, 400]}, {"id": "cup.17", "bbox": [57, 439, 89, 477]}, {"id": "paper.18", "bbox": [505, 451, 546, 482]}, {"id": "shelf.19", "bbox": [483, 437, 542, 456]}]	[{"subject": "man.7", "predicate": "has", "object": "coat.5"}, {"subject": "coat.5", "predicate": "on", "object": "chair.4"}, {"subject": "paper.13", "predicate": "under", "object": "shelf.14"}, {"subject": "paper.13", "predicate": "on", "object": "shelf.16"}, {"subject": "paper.12", "predicate": "under", "object": "shelf.16"}, {"subject": "paper.12", "predicate": "on", "object": "shelf.19"}, {"subject": "paper.18", "predicate": "under", "object": "shelf.19"}, {"subject": "paper.18", "predicate": "on", "object": "shelf.15"}, {"subject": "cup.17", "predicate": "on", "object": "desk.1"}, {"subject": "paper.2", "predicate": "on", "object": "desk.1"}, {"subject": "man.7", "predicate": "has", "object": "coat.5"}, {"subject": "shelf.14", "predicate": "has", "object": "book.10"}, {"subject": "coat.5", "predicate": "on", "object": "chair.4"}, {"subject": "coat.5", "predicate": "on", "object": "chair.4"}, {"subject": "man.7", "predicate": "wears", "object": "shirt.9"}, {"subject": "coat.5", "predicate": "on", "object": "chair.4"}, {"subject": "cup.17", "predicate": "on", "object": "desk.1"}, {"subject": "coat.5", "predicate": "on back of", "object": "chair.4"}, {"subject": "cup.17", "predicate": "on", "object": "desk.1"}, {"subject": "paper.2", "predicate": "sitting on", "object": "desk.1"}, {"subject": "paper.2", "predicate": "lying on", "object": "desk.1"}, {"subject": "cup.17", "predicate": "on", "object": "desk.1"}, {"subject": "man.7", "predicate": "wearing", "object": "shirt.9"}, {"subject": "book.10", "predicate": "on", "object": "shelf.14"}]
11	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "chair.1", "bbox": [248, 171, 539, 598]}, {"id": "desk.2", "bbox": [0, 165, 578, 256]}, {"id": "window.3", "bbox": [490, 0, 796, 181]}, {"id": "leg.4", "bbox": [253, 512, 359, 556]}, {"id": "cabinet.5", "bbox": [405, 250, 546, 444]}, {"id": "table.6", "bbox": [607, 179, 798, 270]}, {"id": "box.7", "bbox": [0, 247, 159, 421]}, {"id": "building.8", "bbox": [621, 0, 798, 181]}, {"id": "bag.9", "bbox": [30, 394, 111, 453]}, {"id": "bag.10", "bbox": [340, 153, 467, 217]}, {"id": "bowl.11", "bbox": [620, 153, 670, 192]}, {"id": "pot.12", "bbox": [776, 142, 796, 198]}, {"id": "plant.13", "bbox": [736, 107, 799, 153]}, {"id": "plate.14", "bbox": [611, 172, 667, 202]}, {"id": "flower.15", "bbox": [758, 110, 796, 142]}, {"id": "plant.16", "bbox": [769, 117, 796, 204]}]	[{"subject": "chair.1", "predicate": "at", "object": "desk.2"}, {"subject": "box.7", "predicate": "under", "object": "desk.2"}, {"subject": "box.7", "predicate": "under", "object": "desk.2"}, {"subject": "bowl.11", "predicate": "on", "object": "table.6"}, {"subject": "pot.12", "predicate": "has", "object": "flower.15"}, {"subject": "plate.14", "predicate": "on", "object": "desk.2"}, {"subject": "plant.16", "predicate": "on", "object": "table.6"}, {"subject": "box.7", "predicate": "under", "object": "desk.2"}, {"subject": "bowl.11", "predicate": "on", "object": "table.6"}, {"subject": "bag.10", "predicate": "on", "object": "desk.2"}, {"subject": "chair.1", "predicate": "near", "object": "table.6"}]
12	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [0, 321, 799, 520]}, {"id": "cup.2", "bbox": [640, 305, 695, 367]}]	[{"subject": "cup.2", "predicate": "on", "object": "desk.1"}]
13	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [0, 182, 590, 596]}, {"id": "chair.2", "bbox": [604, 266, 796, 597]}, {"id": "book.3", "bbox": [71, 417, 307, 541]}, {"id": "paper.4", "bbox": [0, 508, 251, 596]}, {"id": "cup.5", "bbox": [12, 318, 71, 382]}]	[{"subject": "book.3", "predicate": "on", "object": "desk.1"}, {"subject": "book.3", "predicate": "on", "object": "desk.1"}, {"subject": "book.3", "predicate": "on", "object": "desk.1"}, {"subject": "cup.5", "predicate": "on", "object": "desk.1"}, {"subject": "chair.2", "predicate": "in front of", "object": "desk.1"}]
14	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [0, 329, 799, 596]}, {"id": "people.2", "bbox": [32, 87, 359, 321]}, {"id": "lamp.3", "bbox": [628, 168, 797, 435]}, {"id": "book.4", "bbox": [0, 527, 188, 597]}, {"id": "bottle.5", "bbox": [316, 478, 375, 574]}]	[{"subject": "book.4", "predicate": "on", "object": "desk.1"}, {"subject": "bottle.5", "predicate": "on", "object": "desk.1"}, {"subject": "book.4", "predicate": "on", "object": "desk.1"}, {"subject": "lamp.3", "predicate": "on", "object": "desk.1"}, {"subject": "people.2", "predicate": "on", "object": "desk.1"}]
15	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 798, 599]}, {"id": "desk.2", "bbox": [0, 277, 799, 597]}, {"id": "paper.3", "bbox": [574, 279, 795, 449]}, {"id": "box.4", "bbox": [0, 170, 55, 314]}, {"id": "box.5", "bbox": [0, 395, 62, 446]}]	[{"subject": "paper.3", "predicate": "on", "object": "desk.2"}, {"subject": "paper.3", "predicate": "on", "object": "desk.2"}, {"subject": "paper.3", "predicate": "above", "object": "desk.2"}, {"subject": "paper.3", "predicate": "on", "object": "desk.2"}, {"subject": "paper.3", "predicate": "on", "object": "desk.2"}]
16	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "sidewalk.1", "bbox": [106, 231, 796, 596]}, {"id": "street.2", "bbox": [0, 217, 284, 597]}, {"id": "street.3", "bbox": [0, 491, 799, 597]}, {"id": "guy.4", "bbox": [296, 196, 545, 379]}, {"id": "building.5", "bbox": [60, 0, 212, 152]}, {"id": "car.6", "bbox": [92, 221, 241, 353]}, {"id": "pole.7", "bbox": [199, 139, 221, 519]}, {"id": "man.8", "bbox": [448, 162, 518, 375]}, {"id": "boy.9", "bbox": [287, 210, 349, 374]}, {"id": "jacket.10", "bbox": [286, 231, 425, 306]}, {"id": "boy.11", "bbox": [365, 233, 425, 377]}, {"id": "jacket.12", "bbox": [364, 254, 425, 307]}, {"id": "tree.13", "bbox": [44, 128, 126, 230]}, {"id": "window.14", "bbox": [85, 25, 212, 63]}, {"id": "bag.15", "bbox": [500, 302, 527, 357]}, {"id": "jacket.16", "bbox": [400, 212, 455, 283]}, {"id": "jean.17", "bbox": [461, 285, 503, 363]}, {"id": "pant.18", "bbox": [298, 285, 335, 364]}, {"id": "fence.19", "bbox": [305, 200, 371, 220]}, {"id": "street.20", "bbox": [17, 200, 144, 481]}, {"id": "people.21", "bbox": [295, 170, 564, 389]}, {"id": "sign.22", "bbox": [188, 46, 247, 139]}]	[{"subject": "boy.9", "predicate": "with", "object": "pant.18"}, {"subject": "man.8", "predicate": "has", "object": "jean.17"}, {"subject": "man.8", "predicate": "walking on", "object": "street.3"}, {"subject": "boy.11", "predicate": "walking on", "object": "street.3"}, {"subject": "boy.9", "predicate": "walking on", "object": "street.3"}, {"subject": "car.6", "predicate": "on", "object": "street.20"}, {"subject": "people.21", "predicate": "on", "object": "sidewalk.1"}, {"subject": "boy.11", "predicate": "has", "object": "jacket.12"}, {"subject": "sign.22", "predicate": "on", "object": "pole.7"}, {"subject": "jacket.12", "predicate": "on", "object": "boy.11"}, {"subject": "sign.22", "predicate": "on", "object": "sidewalk.1"}, {"subject": "man.8", "predicate": "on", "object": "sidewalk.1"}, {"subject": "building.5", "predicate": "has", "object": "window.14"}, {"subject": "sign.22", "predicate": "on", "object": "pole.7"}, {"subject": "building.5", "predicate": "with", "object": "window.14"}]
17	Generate a structured scene graph for an image of size (800 x 640) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 640) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tile.1", "bbox": [0, 417, 798, 637]}, {"id": "chair.2", "bbox": [0, 321, 351, 637]}, {"id": "desk.3", "bbox": [130, 319, 510, 444]}, {"id": "chair.4", "bbox": [199, 325, 354, 560]}, {"id": "cabinet.5", "bbox": [628, 275, 728, 542]}, {"id": "wheel.6", "bbox": [203, 484, 350, 564]}, {"id": "cabinet.7", "bbox": [92, 394, 146, 446]}, {"id": "door.8", "bbox": [661, 291, 705, 530]}, {"id": "laptop.9", "bbox": [385, 250, 469, 330]}, {"id": "light.10", "bbox": [317, 253, 397, 310]}, {"id": "stand.11", "bbox": [434, 307, 468, 339]}, {"id": "chair.12", "bbox": [192, 328, 367, 564]}, {"id": "laptop.13", "bbox": [401, 240, 464, 338]}]	[{"subject": "laptop.9", "predicate": "on", "object": "desk.3"}, {"subject": "laptop.9", "predicate": "on", "object": "desk.3"}, {"subject": "cabinet.5", "predicate": "has", "object": "door.8"}, {"subject": "chair.4", "predicate": "has", "object": "wheel.6"}, {"subject": "laptop.9", "predicate": "on", "object": "stand.11"}, {"subject": "chair.4", "predicate": "has", "object": "wheel.6"}]
18	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "window.1", "bbox": [0, 0, 315, 385]}, {"id": "desk.2", "bbox": [0, 329, 570, 596]}, {"id": "shelf.3", "bbox": [447, 103, 646, 384]}, {"id": "man.4", "bbox": [622, 257, 797, 568]}, {"id": "chair.5", "bbox": [592, 386, 797, 596]}, {"id": "shirt.6", "bbox": [622, 344, 799, 542]}, {"id": "bag.7", "bbox": [0, 352, 70, 444]}, {"id": "hair.8", "bbox": [670, 257, 745, 331]}, {"id": "bottle.9", "bbox": [117, 358, 144, 435]}, {"id": "helmet.10", "bbox": [469, 138, 508, 175]}, {"id": "table.11", "bbox": [1, 326, 564, 468]}]	[{"subject": "man.4", "predicate": "has", "object": "hair.8"}, {"subject": "bag.7", "predicate": "on", "object": "table.11"}, {"subject": "helmet.10", "predicate": "on", "object": "shelf.3"}]
19	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [0, 360, 798, 521]}, {"id": "desk.2", "bbox": [400, 396, 798, 517]}, {"id": "roof.3", "bbox": [0, 0, 799, 51]}, {"id": "chair.4", "bbox": [31, 515, 287, 596]}, {"id": "wire.5", "bbox": [247, 236, 657, 260]}]	[{"subject": "chair.4", "predicate": "in front of", "object": "desk.1"}]
20	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "man.1", "bbox": [89, 229, 283, 500]}, {"id": "chair.2", "bbox": [60, 382, 319, 596]}, {"id": "window.3", "bbox": [343, 0, 510, 316]}, {"id": "desk.4", "bbox": [39, 350, 505, 420]}, {"id": "shirt.5", "bbox": [90, 329, 282, 470]}, {"id": "box.6", "bbox": [587, 419, 708, 597]}, {"id": "book.7", "bbox": [665, 160, 796, 315]}, {"id": "shelf.8", "bbox": [606, 247, 796, 395]}, {"id": "book.9", "bbox": [615, 0, 793, 128]}, {"id": "hair.10", "bbox": [142, 232, 213, 309]}, {"id": "bottle.11", "bbox": [407, 322, 435, 389]}, {"id": "book.12", "bbox": [339, 347, 409, 378]}, {"id": "table.13", "bbox": [272, 384, 507, 421]}]	[{"subject": "book.7", "predicate": "on", "object": "shelf.8"}, {"subject": "desk.4", "predicate": "made of", "object": "book.9"}, {"subject": "book.7", "predicate": "on", "object": "shelf.8"}, {"subject": "man.1", "predicate": "wearing", "object": "shirt.5"}, {"subject": "bottle.11", "predicate": "above", "object": "table.13"}, {"subject": "book.12", "predicate": "above", "object": "table.13"}]
21	Generate a structured scene graph for an image of size (256 x 256) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (256 x 256) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "person.1", "bbox": [0, 0, 191, 246]}, {"id": "pillow.2", "bbox": [135, 0, 241, 202]}, {"id": "girl.3", "bbox": [99, 94, 174, 210]}, {"id": "hair.4", "bbox": [95, 0, 162, 74]}, {"id": "hair.5", "bbox": [127, 93, 173, 145]}, {"id": "arm.6", "bbox": [134, 85, 190, 217]}, {"id": "hand.7", "bbox": [108, 202, 143, 246]}, {"id": "neck.8", "bbox": [108, 63, 136, 85]}, {"id": "woman.9", "bbox": [86, 5, 176, 152]}, {"id": "people.10", "bbox": [52, 18, 196, 172]}, {"id": "shirt.11", "bbox": [76, 50, 188, 133]}]	[{"subject": "girl.3", "predicate": "near", "object": "woman.9"}, {"subject": "woman.9", "predicate": "with", "object": "girl.3"}, {"subject": "woman.9", "predicate": "with", "object": "girl.3"}, {"subject": "person.1", "predicate": "has", "object": "hair.4"}, {"subject": "person.1", "predicate": "wearing", "object": "shirt.11"}]
22	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [0, 335, 799, 403]}, {"id": "building.2", "bbox": [454, 0, 642, 338]}, {"id": "train.3", "bbox": [61, 257, 409, 389]}, {"id": "building.4", "bbox": [671, 0, 798, 358]}, {"id": "pole.5", "bbox": [547, 0, 579, 463]}, {"id": "pole.6", "bbox": [96, 159, 107, 278]}, {"id": "car.7", "bbox": [575, 319, 642, 364]}, {"id": "door.8", "bbox": [283, 285, 300, 378]}, {"id": "door.9", "bbox": [205, 288, 225, 369]}, {"id": "car.10", "bbox": [496, 325, 550, 357]}, {"id": "car.11", "bbox": [407, 321, 499, 356]}, {"id": "car.12", "bbox": [437, 327, 500, 357]}, {"id": "door.13", "bbox": [169, 290, 188, 367]}, {"id": "car.14", "bbox": [400, 321, 444, 353]}]	[{"subject": "car.7", "predicate": "on", "object": "street.1"}, {"subject": "car.10", "predicate": "on", "object": "street.1"}, {"subject": "car.12", "predicate": "on", "object": "street.1"}, {"subject": "car.14", "predicate": "on", "object": "street.1"}, {"subject": "train.3", "predicate": "has", "object": "door.8"}, {"subject": "train.3", "predicate": "has", "object": "door.9"}, {"subject": "train.3", "predicate": "has", "object": "door.13"}]
23	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [318, 0, 796, 286]}, {"id": "car.2", "bbox": [19, 196, 585, 431]}, {"id": "building.3", "bbox": [0, 0, 402, 389]}, {"id": "tree.4", "bbox": [315, 0, 627, 202]}, {"id": "tree.5", "bbox": [592, 0, 796, 245]}, {"id": "car.6", "bbox": [552, 243, 797, 387]}, {"id": "girl.7", "bbox": [104, 200, 168, 441]}, {"id": "door.8", "bbox": [0, 161, 84, 307]}, {"id": "girl.9", "bbox": [96, 201, 246, 443]}, {"id": "person.10", "bbox": [0, 203, 49, 397]}, {"id": "tire.11", "bbox": [317, 350, 398, 439]}, {"id": "girl.12", "bbox": [165, 204, 220, 434]}, {"id": "sign.13", "bbox": [197, 0, 250, 119]}, {"id": "shirt.14", "bbox": [0, 225, 47, 306]}, {"id": "shirt.15", "bbox": [199, 252, 245, 317]}, {"id": "wheel.16", "bbox": [709, 325, 759, 385]}, {"id": "sign.17", "bbox": [351, 69, 401, 122]}, {"id": "man.18", "bbox": [607, 260, 662, 295]}, {"id": "sign.19", "bbox": [578, 105, 608, 158]}, {"id": "sign.20", "bbox": [119, 140, 158, 189]}, {"id": "shirt.21", "bbox": [178, 253, 209, 303]}]	[{"subject": "car.2", "predicate": "behind", "object": "girl.9"}, {"subject": "girl.9", "predicate": "near", "object": "car.2"}, {"subject": "girl.12", "predicate": "near", "object": "car.2"}, {"subject": "girl.7", "predicate": "near", "object": "car.2"}, {"subject": "man.18", "predicate": "in", "object": "car.6"}, {"subject": "car.2", "predicate": "has", "object": "tire.11"}]
24	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tree.1", "bbox": [228, 0, 796, 427]}, {"id": "street.2", "bbox": [111, 257, 798, 596]}, {"id": "building.3", "bbox": [0, 0, 142, 374]}, {"id": "car.4", "bbox": [453, 259, 677, 418]}, {"id": "bike.5", "bbox": [637, 330, 792, 480]}, {"id": "bike.6", "bbox": [322, 268, 492, 353]}, {"id": "pole.7", "bbox": [114, 275, 147, 437]}, {"id": "boy.8", "bbox": [36, 282, 73, 344]}, {"id": "pole.9", "bbox": [451, 142, 467, 284]}, {"id": "man.10", "bbox": [418, 225, 452, 291]}, {"id": "motorcycle.11", "bbox": [187, 254, 239, 285]}, {"id": "street.12", "bbox": [164, 305, 516, 596]}, {"id": "man.13", "bbox": [34, 278, 78, 349]}]	[{"subject": "tree.1", "predicate": "on", "object": "street.12"}, {"subject": "man.10", "predicate": "near", "object": "bike.6"}, {"subject": "tree.1", "predicate": "along", "object": "street.12"}, {"subject": "tree.1", "predicate": "along", "object": "street.12"}, {"subject": "bike.5", "predicate": "on", "object": "street.12"}, {"subject": "building.3", "predicate": "on", "object": "street.2"}]
25	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 640, 418]}, {"id": "sidewalk.2", "bbox": [0, 350, 799, 596]}, {"id": "people.3", "bbox": [88, 278, 319, 455]}, {"id": "pole.4", "bbox": [682, 17, 742, 351]}, {"id": "table.5", "bbox": [471, 330, 721, 405]}, {"id": "plant.6", "bbox": [232, 119, 360, 258]}, {"id": "car.7", "bbox": [638, 288, 786, 369]}, {"id": "umbrella.8", "bbox": [403, 237, 733, 279]}, {"id": "woman.9", "bbox": [185, 280, 245, 454]}, {"id": "woman.10", "bbox": [269, 289, 319, 450]}, {"id": "man.11", "bbox": [136, 278, 184, 430]}, {"id": "door.12", "bbox": [373, 271, 423, 353]}, {"id": "person.13", "bbox": [604, 317, 653, 387]}, {"id": "chair.14", "bbox": [540, 349, 592, 407]}, {"id": "window.15", "bbox": [411, 93, 453, 150]}, {"id": "chair.16", "bbox": [708, 355, 756, 407]}, {"id": "car.17", "bbox": [639, 285, 678, 341]}, {"id": "chair.18", "bbox": [492, 357, 530, 406]}, {"id": "chair.19", "bbox": [653, 360, 688, 406]}, {"id": "chair.20", "bbox": [605, 347, 644, 391]}, {"id": "chair.21", "bbox": [447, 350, 485, 392]}, {"id": "car.22", "bbox": [734, 302, 798, 367]}]	[{"subject": "person.13", "predicate": "on", "object": "chair.20"}, {"subject": "car.22", "predicate": "near", "object": "sidewalk.2"}, {"subject": "car.7", "predicate": "near", "object": "sidewalk.2"}, {"subject": "car.17", "predicate": "near", "object": "sidewalk.2"}]
26	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [62, 396, 796, 598]}, {"id": "building.2", "bbox": [0, 0, 51, 367]}, {"id": "people.3", "bbox": [339, 360, 719, 523]}, {"id": "building.4", "bbox": [506, 100, 670, 377]}, {"id": "building.5", "bbox": [121, 17, 208, 346]}, {"id": "building.6", "bbox": [37, 140, 176, 318]}, {"id": "building.7", "bbox": [649, 93, 795, 300]}, {"id": "tree.8", "bbox": [0, 232, 82, 390]}, {"id": "building.9", "bbox": [414, 135, 507, 342]}, {"id": "flower.10", "bbox": [318, 401, 559, 453]}, {"id": "sign.11", "bbox": [671, 93, 752, 285]}, {"id": "men.12", "bbox": [558, 360, 720, 521]}, {"id": "car.13", "bbox": [75, 396, 185, 478]}, {"id": "building.14", "bbox": [228, 217, 284, 358]}, {"id": "bus.15", "bbox": [561, 356, 643, 401]}, {"id": "man.16", "bbox": [617, 386, 664, 511]}, {"id": "man.17", "bbox": [389, 377, 428, 514]}, {"id": "vehicle.18", "bbox": [541, 387, 605, 410]}, {"id": "tree.19", "bbox": [67, 283, 146, 393]}, {"id": "car.20", "bbox": [0, 403, 87, 471]}, {"id": "tree.21", "bbox": [125, 313, 206, 389]}, {"id": "paper.22", "bbox": [605, 433, 668, 467]}, {"id": "building.23", "bbox": [407, 137, 498, 231]}]	[{"subject": "man.17", "predicate": "walking on", "object": "street.1"}, {"subject": "sign.11", "predicate": "on", "object": "building.7"}]
27	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 794, 596]}, {"id": "table.2", "bbox": [182, 294, 623, 596]}, {"id": "chair.3", "bbox": [271, 288, 621, 592]}, {"id": "door.4", "bbox": [2, 0, 139, 599]}, {"id": "tile.5", "bbox": [150, 0, 495, 30]}]	[{"subject": "chair.3", "predicate": "in", "object": "room.1"}, {"subject": "chair.3", "predicate": "in", "object": "room.1"}, {"subject": "chair.3", "predicate": "in", "object": "room.1"}, {"subject": "chair.3", "predicate": "in", "object": "room.1"}, {"subject": "chair.3", "predicate": "in", "object": "room.1"}, {"subject": "door.4", "predicate": "in", "object": "room.1"}, {"subject": "chair.3", "predicate": "near", "object": "table.2"}]
28	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 800, 597]}, {"id": "table.2", "bbox": [80, 453, 533, 598]}, {"id": "pillow.3", "bbox": [325, 468, 796, 595]}, {"id": "flower.4", "bbox": [199, 337, 412, 482]}, {"id": "curtain.5", "bbox": [773, 0, 798, 574]}, {"id": "stand.6", "bbox": [515, 371, 603, 535]}, {"id": "pillow.7", "bbox": [352, 367, 480, 475]}, {"id": "pillow.8", "bbox": [20, 393, 118, 493]}, {"id": "bowl.9", "bbox": [121, 429, 254, 500]}, {"id": "basket.10", "bbox": [556, 457, 646, 527]}, {"id": "vase.11", "bbox": [268, 418, 339, 487]}, {"id": "book.12", "bbox": [343, 457, 470, 489]}, {"id": "basket.13", "bbox": [503, 315, 570, 360]}]	[{"subject": "bowl.9", "predicate": "on", "object": "table.2"}, {"subject": "vase.11", "predicate": "has", "object": "flower.4"}, {"subject": "vase.11", "predicate": "on", "object": "table.2"}, {"subject": "bowl.9", "predicate": "on", "object": "table.2"}, {"subject": "vase.11", "predicate": "of", "object": "flower.4"}, {"subject": "book.12", "predicate": "on", "object": "table.2"}, {"subject": "book.12", "predicate": "on", "object": "table.2"}, {"subject": "flower.4", "predicate": "on", "object": "table.2"}, {"subject": "flower.4", "predicate": "on", "object": "table.2"}, {"subject": "flower.4", "predicate": "on", "object": "table.2"}, {"subject": "book.12", "predicate": "on", "object": "table.2"}, {"subject": "pillow.3", "predicate": "in", "object": "room.1"}, {"subject": "bowl.9", "predicate": "on", "object": "table.2"}, {"subject": "book.12", "predicate": "on", "object": "table.2"}, {"subject": "flower.4", "predicate": "on", "object": "table.2"}, {"subject": "bowl.9", "predicate": "on", "object": "table.2"}, {"subject": "vase.11", "predicate": "of", "object": "flower.4"}, {"subject": "book.12", "predicate": "on", "object": "table.2"}]
29	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "beach.1", "bbox": [0, 247, 800, 596]}, {"id": "woman.2", "bbox": [308, 160, 725, 414]}, {"id": "building.3", "bbox": [0, 185, 293, 289]}, {"id": "boat.4", "bbox": [464, 235, 674, 383]}, {"id": "pole.5", "bbox": [84, 0, 154, 314]}, {"id": "railing.6", "bbox": [0, 196, 295, 290]}, {"id": "house.7", "bbox": [0, 192, 78, 275]}, {"id": "short.8", "bbox": [318, 269, 368, 325]}, {"id": "hair.9", "bbox": [324, 160, 356, 194]}]	[{"subject": "building.3", "predicate": "on", "object": "beach.1"}, {"subject": "boat.4", "predicate": "on", "object": "beach.1"}, {"subject": "woman.2", "predicate": "wearing", "object": "short.8"}, {"subject": "pole.5", "predicate": "above", "object": "beach.1"}, {"subject": "house.7", "predicate": "above", "object": "beach.1"}, {"subject": "boat.4", "predicate": "above", "object": "beach.1"}, {"subject": "woman.2", "predicate": "above", "object": "beach.1"}]
30	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "stand.1", "bbox": [465, 112, 796, 594]}, {"id": "curtain.2", "bbox": [151, 40, 453, 450]}, {"id": "window.3", "bbox": [372, 104, 397, 316]}, {"id": "window.4", "bbox": [0, 105, 103, 478]}, {"id": "chair.5", "bbox": [203, 307, 310, 445]}, {"id": "drawer.6", "bbox": [496, 376, 754, 468]}, {"id": "table.7", "bbox": [256, 307, 404, 451]}, {"id": "chair.8", "bbox": [292, 297, 382, 431]}, {"id": "bag.9", "bbox": [107, 410, 189, 478]}, {"id": "light.10", "bbox": [335, 52, 389, 82]}]	[{"subject": "table.7", "predicate": "made of", "object": "chair.5"}, {"subject": "curtain.2", "predicate": "near", "object": "window.3"}, {"subject": "table.7", "predicate": "with", "object": "chair.5"}]
31	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "cabinet.1", "bbox": [0, 0, 743, 287]}, {"id": "sink.2", "bbox": [213, 417, 483, 485]}, {"id": "shelf.3", "bbox": [204, 244, 481, 274]}, {"id": "plant.4", "bbox": [82, 351, 160, 426]}, {"id": "flower.5", "bbox": [86, 351, 156, 399]}, {"id": "glass.6", "bbox": [571, 378, 602, 426]}, {"id": "box.7", "bbox": [210, 216, 259, 247]}]	[{"subject": "plant.4", "predicate": "has", "object": "flower.5"}]
32	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "cabinet.1", "bbox": [0, 0, 754, 323]}, {"id": "counter.2", "bbox": [36, 365, 756, 521]}, {"id": "cabinet.3", "bbox": [42, 435, 749, 598]}, {"id": "door.4", "bbox": [271, 0, 420, 311]}, {"id": "cabinet.5", "bbox": [413, 0, 505, 316]}, {"id": "glass.6", "bbox": [349, 17, 404, 291]}, {"id": "sink.7", "bbox": [263, 417, 422, 455]}, {"id": "cup.8", "bbox": [365, 192, 404, 226]}, {"id": "tile.9", "bbox": [56, 303, 120, 350]}, {"id": "handle.10", "bbox": [409, 357, 446, 395]}, {"id": "shelf.11", "bbox": [251, 0, 421, 315]}]	[{"subject": "cabinet.1", "predicate": "has", "object": "glass.6"}, {"subject": "shelf.11", "predicate": "has", "object": "cup.8"}]
33	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 794, 598]}, {"id": "seat.2", "bbox": [0, 278, 523, 442]}, {"id": "table.3", "bbox": [10, 376, 362, 567]}, {"id": "window.4", "bbox": [85, 19, 290, 278]}, {"id": "tile.5", "bbox": [575, 493, 699, 582]}, {"id": "tile.6", "bbox": [682, 510, 796, 584]}, {"id": "pillow.7", "bbox": [60, 285, 156, 360]}, {"id": "pillow.8", "bbox": [252, 289, 317, 347]}, {"id": "pillow.9", "bbox": [321, 280, 408, 350]}, {"id": "door.10", "bbox": [591, 180, 630, 294]}, {"id": "pillow.11", "bbox": [188, 275, 266, 342]}, {"id": "tile.12", "bbox": [585, 479, 684, 525]}, {"id": "pillow.13", "bbox": [407, 285, 474, 341]}, {"id": "tile.14", "bbox": [476, 472, 567, 514]}, {"id": "bottle.15", "bbox": [220, 376, 270, 428]}, {"id": "stand.16", "bbox": [725, 361, 791, 425]}, {"id": "glass.17", "bbox": [240, 383, 270, 427]}, {"id": "glass.18", "bbox": [192, 379, 269, 403]}]	[{"subject": "pillow.7", "predicate": "above", "object": "seat.2"}, {"subject": "pillow.11", "predicate": "above", "object": "seat.2"}, {"subject": "pillow.8", "predicate": "above", "object": "seat.2"}, {"subject": "pillow.9", "predicate": "above", "object": "seat.2"}, {"subject": "pillow.13", "predicate": "above", "object": "seat.2"}, {"subject": "room.1", "predicate": "in", "object": "window.4"}, {"subject": "room.1", "predicate": "has", "object": "window.4"}]
35	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "desk.1", "bbox": [0, 0, 798, 596]}, {"id": "chair.2", "bbox": [168, 230, 771, 580]}, {"id": "table.3", "bbox": [207, 266, 724, 580]}, {"id": "wheel.4", "bbox": [166, 392, 289, 428]}, {"id": "desk.5", "bbox": [40, 0, 289, 435]}, {"id": "book.6", "bbox": [32, 26, 798, 140]}, {"id": "lamp.7", "bbox": [478, 127, 685, 277]}, {"id": "flower.8", "bbox": [503, 0, 639, 174]}, {"id": "drawer.9", "bbox": [47, 267, 149, 415]}, {"id": "lamp.10", "bbox": [476, 179, 533, 232]}, {"id": "wheel.11", "bbox": [60, 402, 141, 433]}, {"id": "stand.12", "bbox": [527, 125, 696, 267]}]	[{"subject": "chair.2", "predicate": "in", "object": "desk.1"}, {"subject": "lamp.7", "predicate": "in", "object": "desk.1"}, {"subject": "lamp.10", "predicate": "on", "object": "stand.12"}, {"subject": "book.6", "predicate": "on", "object": "desk.5"}, {"subject": "chair.2", "predicate": "has", "object": "wheel.4"}, {"subject": "lamp.7", "predicate": "on", "object": "desk.1"}, {"subject": "book.6", "predicate": "on", "object": "desk.5"}, {"subject": "drawer.9", "predicate": "near", "object": "chair.2"}, {"subject": "book.6", "predicate": "on", "object": "desk.5"}]
36	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [28, 319, 633, 596]}, {"id": "cabinet.2", "bbox": [129, 64, 299, 344]}, {"id": "light.3", "bbox": [292, 97, 387, 274]}, {"id": "drawer.4", "bbox": [561, 318, 748, 364]}, {"id": "sink.5", "bbox": [133, 286, 232, 375]}, {"id": "fruit.6", "bbox": [192, 329, 316, 393]}, {"id": "drawer.7", "bbox": [0, 254, 130, 293]}, {"id": "bowl.8", "bbox": [200, 370, 309, 398]}, {"id": "drawer.9", "bbox": [400, 296, 488, 337]}, {"id": "pot.10", "bbox": [23, 135, 73, 167]}, {"id": "plate.11", "bbox": [704, 278, 742, 327]}, {"id": "pot.12", "bbox": [536, 275, 575, 308]}, {"id": "flower.13", "bbox": [343, 229, 391, 256]}, {"id": "window.14", "bbox": [292, 83, 385, 249]}, {"id": "food.15", "bbox": [167, 329, 463, 407]}]	[{"subject": "light.3", "predicate": "from", "object": "window.14"}, {"subject": "food.15", "predicate": "near", "object": "sink.5"}, {"subject": "bowl.8", "predicate": "on", "object": "table.1"}, {"subject": "bowl.8", "predicate": "of", "object": "fruit.6"}, {"subject": "bowl.8", "predicate": "of", "object": "fruit.6"}, {"subject": "plate.11", "predicate": "on", "object": "drawer.7"}, {"subject": "sink.5", "predicate": "on", "object": "table.1"}]
37	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 799, 597]}, {"id": "chair.2", "bbox": [0, 178, 278, 597]}, {"id": "pillow.3", "bbox": [226, 214, 750, 375]}, {"id": "plate.4", "bbox": [224, 0, 609, 211]}, {"id": "table.5", "bbox": [360, 371, 797, 570]}, {"id": "door.6", "bbox": [0, 0, 95, 296]}, {"id": "plant.7", "bbox": [650, 0, 796, 159]}, {"id": "pillow.8", "bbox": [22, 264, 168, 400]}, {"id": "bowl.9", "bbox": [663, 293, 797, 406]}, {"id": "book.10", "bbox": [425, 373, 564, 426]}, {"id": "flower.11", "bbox": [0, 259, 65, 415]}, {"id": "child.12", "bbox": [568, 250, 628, 317]}, {"id": "glass.13", "bbox": [361, 371, 796, 442]}, {"id": "leaf.14", "bbox": [0, 269, 61, 371]}, {"id": "plate.15", "bbox": [592, 397, 672, 414]}, {"id": "box.16", "bbox": [27, 382, 77, 415]}, {"id": "leg.17", "bbox": [236, 522, 261, 571]}, {"id": "glass.18", "bbox": [0, 393, 112, 430]}, {"id": "table.19", "bbox": [5, 396, 99, 496]}, {"id": "fruit.20", "bbox": [700, 292, 787, 312]}, {"id": "seat.21", "bbox": [3, 190, 260, 581]}, {"id": "basket.22", "bbox": [662, 294, 796, 368]}, {"id": "vase.23", "bbox": [0, 320, 27, 414]}, {"id": "bowl.24", "bbox": [660, 295, 796, 362]}, {"id": "leaf.25", "bbox": [658, 0, 795, 137]}]	[{"subject": "fruit.20", "predicate": "in", "object": "bowl.9"}, {"subject": "book.10", "predicate": "on", "object": "table.5"}, {"subject": "plate.15", "predicate": "on", "object": "table.5"}, {"subject": "fruit.20", "predicate": "on", "object": "table.5"}, {"subject": "plate.15", "predicate": "on", "object": "table.5"}, {"subject": "book.10", "predicate": "on", "object": "table.5"}, {"subject": "table.19", "predicate": "has", "object": "glass.18"}, {"subject": "table.5", "predicate": "has", "object": "glass.13"}, {"subject": "flower.11", "predicate": "near", "object": "seat.21"}, {"subject": "box.16", "predicate": "on", "object": "table.19"}, {"subject": "fruit.20", "predicate": "in", "object": "basket.22"}, {"subject": "book.10", "predicate": "sitting on", "object": "table.5"}, {"subject": "pillow.8", "predicate": "sitting on", "object": "chair.2"}, {"subject": "book.10", "predicate": "on", "object": "table.5"}, {"subject": "book.10", "predicate": "on", "object": "table.5"}, {"subject": "fruit.20", "predicate": "in", "object": "bowl.9"}, {"subject": "plate.15", "predicate": "on", "object": "table.5"}, {"subject": "vase.23", "predicate": "sitting on", "object": "table.19"}, {"subject": "leaf.25", "predicate": "on", "object": "plant.7"}, {"subject": "book.10", "predicate": "sitting on", "object": "table.5"}, {"subject": "plate.15", "predicate": "on", "object": "table.5"}]
38	Generate a structured scene graph for an image of size (782 x 800) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (782 x 800) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "basket.1", "bbox": [0, 669, 67, 751]}, {"id": "plant.2", "bbox": [215, 579, 552, 796]}, {"id": "pot.3", "bbox": [476, 565, 525, 604]}, {"id": "flower.4", "bbox": [0, 1, 677, 172]}, {"id": "flower.5", "bbox": [0, 516, 778, 758]}, {"id": "tree.6", "bbox": [0, 601, 93, 692]}, {"id": "table.7", "bbox": [144, 355, 386, 667]}, {"id": "chair.8", "bbox": [408, 378, 643, 622]}]	[{"subject": "table.7", "predicate": "has", "object": "plant.2"}, {"subject": "pot.3", "predicate": "has", "object": "flower.5"}, {"subject": "basket.1", "predicate": "with", "object": "flower.5"}, {"subject": "plant.2", "predicate": "has", "object": "table.7"}, {"subject": "chair.8", "predicate": "near", "object": "table.7"}, {"subject": "chair.8", "predicate": "near", "object": "table.7"}, {"subject": "plant.2", "predicate": "above", "object": "table.7"}]
39	Generate a structured scene graph for an image of size (800 x 534) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 534) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "plant.1", "bbox": [0, 253, 239, 531]}, {"id": "table.2", "bbox": [472, 246, 696, 437]}, {"id": "chair.3", "bbox": [371, 253, 542, 471]}, {"id": "chair.4", "bbox": [607, 240, 752, 438]}, {"id": "chair.5", "bbox": [421, 225, 564, 432]}, {"id": "chair.6", "bbox": [565, 225, 709, 419]}, {"id": "lamp.7", "bbox": [23, 117, 98, 241]}, {"id": "flower.8", "bbox": [558, 198, 590, 253]}]	[{"subject": "chair.3", "predicate": "at", "object": "table.2"}, {"subject": "chair.5", "predicate": "at", "object": "table.2"}, {"subject": "chair.6", "predicate": "at", "object": "table.2"}, {"subject": "chair.4", "predicate": "at", "object": "table.2"}, {"subject": "lamp.7", "predicate": "on", "object": "table.2"}, {"subject": "flower.8", "predicate": "on", "object": "table.2"}]
40	Generate a structured scene graph for an image of size (560 x 800) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (560 x 800) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [125, 335, 556, 745]}, {"id": "shelf.2", "bbox": [0, 0, 353, 446]}, {"id": "flower.3", "bbox": [162, 0, 557, 345]}, {"id": "chair.4", "bbox": [0, 292, 213, 763]}, {"id": "window.5", "bbox": [428, 0, 555, 530]}, {"id": "vase.6", "bbox": [372, 228, 460, 342]}, {"id": "tile.7", "bbox": [275, 755, 495, 797]}, {"id": "person.8", "bbox": [367, 296, 398, 342]}, {"id": "table.9", "bbox": [179, 683, 556, 796]}, {"id": "lamp.10", "bbox": [167, 101, 381, 346]}]	[{"subject": "table.1", "predicate": "near", "object": "chair.4"}, {"subject": "chair.4", "predicate": "near", "object": "table.1"}, {"subject": "flower.3", "predicate": "on", "object": "table.1"}, {"subject": "flower.3", "predicate": "in", "object": "vase.6"}, {"subject": "flower.3", "predicate": "in", "object": "vase.6"}, {"subject": "vase.6", "predicate": "on", "object": "table.1"}, {"subject": "lamp.10", "predicate": "on", "object": "table.1"}, {"subject": "flower.3", "predicate": "in", "object": "vase.6"}, {"subject": "chair.4", "predicate": "near", "object": "table.1"}, {"subject": "lamp.10", "predicate": "on", "object": "table.1"}, {"subject": "vase.6", "predicate": "on", "object": "table.1"}, {"subject": "lamp.10", "predicate": "on", "object": "table.1"}, {"subject": "lamp.10", "predicate": "on", "object": "table.1"}, {"subject": "chair.4", "predicate": "near", "object": "table.1"}, {"subject": "flower.3", "predicate": "in", "object": "vase.6"}, {"subject": "flower.3", "predicate": "on", "object": "table.1"}, {"subject": "table.1", "predicate": "near", "object": "chair.4"}]
41	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tile.1", "bbox": [0, 167, 727, 404]}, {"id": "tile.2", "bbox": [0, 367, 797, 594]}, {"id": "cabinet.3", "bbox": [0, 0, 284, 237]}, {"id": "stand.4", "bbox": [396, 0, 595, 240]}, {"id": "drawer.5", "bbox": [257, 489, 467, 599]}, {"id": "cup.6", "bbox": [540, 170, 606, 254]}, {"id": "bowl.7", "bbox": [463, 142, 536, 190]}, {"id": "handle.8", "bbox": [325, 530, 383, 553]}, {"id": "handle.9", "bbox": [0, 46, 23, 133]}, {"id": "box.10", "bbox": [461, 112, 527, 142]}, {"id": "handle.11", "bbox": [112, 52, 131, 125]}]	[{"subject": "cabinet.3", "predicate": "has", "object": "handle.11"}, {"subject": "cabinet.3", "predicate": "has", "object": "handle.9"}, {"subject": "bowl.7", "predicate": "on", "object": "stand.4"}]
42	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 795, 598]}, {"id": "chair.2", "bbox": [50, 402, 302, 594]}, {"id": "table.3", "bbox": [0, 379, 150, 593]}, {"id": "window.4", "bbox": [0, 0, 160, 185]}, {"id": "chair.5", "bbox": [396, 196, 482, 309]}, {"id": "book.6", "bbox": [32, 376, 117, 410]}, {"id": "building.7", "bbox": [21, 71, 48, 128]}, {"id": "chair.8", "bbox": [36, 382, 131, 435]}, {"id": "lamp.9", "bbox": [0, 3, 159, 185]}, {"id": "table.10", "bbox": [217, 289, 360, 442]}, {"id": "chair.11", "bbox": [226, 200, 311, 306]}]	[{"subject": "chair.8", "predicate": "in", "object": "room.1"}, {"subject": "lamp.9", "predicate": "in", "object": "room.1"}, {"subject": "chair.2", "predicate": "in", "object": "room.1"}, {"subject": "lamp.9", "predicate": "above", "object": "table.3"}, {"subject": "building.7", "predicate": "in", "object": "window.4"}, {"subject": "lamp.9", "predicate": "above", "object": "table.3"}, {"subject": "book.6", "predicate": "above", "object": "table.3"}, {"subject": "chair.2", "predicate": "in", "object": "room.1"}, {"subject": "chair.2", "predicate": "in", "object": "room.1"}, {"subject": "window.4", "predicate": "in", "object": "room.1"}, {"subject": "book.6", "predicate": "above", "object": "table.3"}, {"subject": "chair.11", "predicate": "near", "object": "window.4"}]
43	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tile.1", "bbox": [0, 40, 799, 379]}, {"id": "table.2", "bbox": [0, 335, 799, 596]}, {"id": "stand.3", "bbox": [690, 126, 796, 531]}, {"id": "cabinet.4", "bbox": [0, 0, 799, 65]}, {"id": "cabinet.5", "bbox": [0, 490, 288, 596]}, {"id": "plate.6", "bbox": [525, 525, 709, 588]}, {"id": "people.7", "bbox": [292, 247, 409, 359]}, {"id": "plate.8", "bbox": [0, 351, 119, 407]}, {"id": "wire.9", "bbox": [690, 313, 739, 357]}]	[{"subject": "plate.6", "predicate": "on", "object": "table.2"}, {"subject": "plate.8", "predicate": "on", "object": "table.2"}, {"subject": "plate.6", "predicate": "on", "object": "table.2"}, {"subject": "cabinet.5", "predicate": "under", "object": "table.2"}, {"subject": "plate.8", "predicate": "on", "object": "table.2"}, {"subject": "cabinet.5", "predicate": "under", "object": "table.2"}, {"subject": "stand.3", "predicate": "on", "object": "table.2"}, {"subject": "plate.6", "predicate": "on", "object": "table.2"}, {"subject": "plate.8", "predicate": "on", "object": "table.2"}]
44	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 2, 794, 592]}, {"id": "chair.2", "bbox": [150, 436, 437, 596]}, {"id": "desk.3", "bbox": [435, 417, 796, 595]}, {"id": "seat.4", "bbox": [457, 321, 653, 515]}, {"id": "chair.5", "bbox": [0, 32, 409, 220]}, {"id": "table.6", "bbox": [97, 214, 797, 520]}, {"id": "arm.7", "bbox": [164, 442, 425, 561]}, {"id": "stand.8", "bbox": [275, 84, 488, 282]}, {"id": "board.9", "bbox": [279, 85, 481, 223]}, {"id": "table.10", "bbox": [128, 243, 461, 307]}, {"id": "table.11", "bbox": [94, 42, 269, 194]}, {"id": "leg.12", "bbox": [456, 418, 587, 520]}, {"id": "leg.13", "bbox": [172, 530, 428, 596]}, {"id": "chair.14", "bbox": [339, 259, 456, 409]}, {"id": "table.15", "bbox": [443, 235, 678, 272]}, {"id": "chair.16", "bbox": [252, 217, 316, 297]}, {"id": "light.17", "bbox": [0, 8, 442, 47]}, {"id": "light.18", "bbox": [240, 18, 339, 31]}, {"id": "light.19", "bbox": [0, 9, 96, 23]}, {"id": "light.20", "bbox": [349, 21, 435, 34]}, {"id": "table.21", "bbox": [457, 314, 645, 528]}, {"id": "stand.22", "bbox": [150, 436, 437, 596]}, {"id": "chair.23", "bbox": [305, 221, 557, 296]}, {"id": "leg.24", "bbox": [207, 313, 270, 447]}, {"id": "chair.25", "bbox": [207, 278, 364, 449]}]	[{"subject": "table.21", "predicate": "has", "object": "leg.12"}, {"subject": "board.9", "predicate": "has", "object": "stand.8"}, {"subject": "stand.22", "predicate": "has", "object": "arm.7"}, {"subject": "stand.22", "predicate": "has", "object": "table.6"}, {"subject": "stand.22", "predicate": "has", "object": "board.9"}, {"subject": "chair.5", "predicate": "has", "object": "chair.16"}, {"subject": "table.6", "predicate": "in", "object": "room.1"}, {"subject": "chair.2", "predicate": "in", "object": "room.1"}, {"subject": "table.11", "predicate": "in", "object": "room.1"}, {"subject": "light.17", "predicate": "on", "object": "table.11"}, {"subject": "leg.24", "predicate": "on", "object": "chair.25"}, {"subject": "chair.2", "predicate": "in", "object": "room.1"}]
45	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 284, 305]}, {"id": "building.2", "bbox": [500, 0, 798, 307]}, {"id": "street.3", "bbox": [311, 245, 582, 329]}, {"id": "sidewalk.4", "bbox": [0, 273, 311, 332]}, {"id": "man.5", "bbox": [0, 229, 27, 318]}, {"id": "car.6", "bbox": [418, 258, 471, 293]}, {"id": "car.7", "bbox": [377, 252, 411, 283]}]	[{"subject": "man.5", "predicate": "on", "object": "sidewalk.4"}, {"subject": "man.5", "predicate": "walking on", "object": "sidewalk.4"}]
46	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [1, 3, 749, 447]}, {"id": "street.2", "bbox": [2, 428, 794, 597]}, {"id": "building.3", "bbox": [3, 0, 796, 403]}, {"id": "building.4", "bbox": [714, 2, 774, 355]}, {"id": "car.5", "bbox": [96, 371, 340, 475]}, {"id": "logo.6", "bbox": [366, 240, 535, 285]}, {"id": "vehicle.7", "bbox": [526, 342, 796, 477]}, {"id": "street.8", "bbox": [143, 457, 584, 590]}, {"id": "window.9", "bbox": [357, 128, 701, 247]}, {"id": "tire.10", "bbox": [578, 421, 636, 485]}, {"id": "window.11", "bbox": [353, 276, 703, 397]}, {"id": "window.12", "bbox": [0, 0, 693, 153]}, {"id": "light.13", "bbox": [154, 133, 675, 215]}]	[{"subject": "window.11", "predicate": "near", "object": "vehicle.7"}, {"subject": "car.5", "predicate": "on", "object": "street.2"}, {"subject": "logo.6", "predicate": "on", "object": "building.1"}, {"subject": "window.12", "predicate": "in", "object": "building.3"}, {"subject": "window.12", "predicate": "on", "object": "building.1"}]
47	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 630, 325]}, {"id": "street.2", "bbox": [0, 306, 799, 596]}, {"id": "sidewalk.3", "bbox": [0, 391, 799, 596]}, {"id": "tree.4", "bbox": [621, 136, 796, 328]}, {"id": "car.5", "bbox": [7, 286, 534, 343]}, {"id": "car.6", "bbox": [623, 298, 750, 337]}, {"id": "sign.7", "bbox": [44, 221, 167, 256]}, {"id": "bus.8", "bbox": [0, 227, 68, 341]}, {"id": "man.9", "bbox": [563, 290, 611, 417]}, {"id": "clock.10", "bbox": [649, 228, 676, 264]}, {"id": "flag.11", "bbox": [160, 196, 240, 245]}, {"id": "bus.12", "bbox": [372, 272, 446, 317]}, {"id": "umbrella.13", "bbox": [551, 283, 617, 311]}, {"id": "person.14", "bbox": [553, 275, 624, 423]}]	[{"subject": "person.14", "predicate": "with", "object": "umbrella.13"}, {"subject": "sign.7", "predicate": "on", "object": "building.1"}, {"subject": "flag.11", "predicate": "on", "object": "building.1"}, {"subject": "man.9", "predicate": "with", "object": "umbrella.13"}, {"subject": "building.1", "predicate": "on", "object": "street.2"}, {"subject": "man.9", "predicate": "carrying", "object": "umbrella.13"}, {"subject": "person.14", "predicate": "on", "object": "street.2"}, {"subject": "man.9", "predicate": "on", "object": "street.2"}, {"subject": "man.9", "predicate": "with", "object": "umbrella.13"}, {"subject": "man.9", "predicate": "carrying", "object": "umbrella.13"}, {"subject": "man.9", "predicate": "carrying", "object": "umbrella.13"}]
48	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 436, 394]}, {"id": "street.2", "bbox": [0, 353, 548, 555]}, {"id": "tree.3", "bbox": [7, 0, 370, 449]}, {"id": "leaf.4", "bbox": [3, 158, 151, 264]}, {"id": "pot.5", "bbox": [32, 407, 314, 589]}, {"id": "tree.6", "bbox": [394, 139, 617, 419]}, {"id": "building.7", "bbox": [425, 85, 572, 385]}, {"id": "people.8", "bbox": [522, 365, 579, 489]}, {"id": "window.9", "bbox": [225, 32, 431, 245]}, {"id": "leaf.10", "bbox": [401, 143, 621, 346]}, {"id": "pole.11", "bbox": [310, 201, 358, 503]}, {"id": "light.12", "bbox": [543, 114, 580, 380]}, {"id": "post.13", "bbox": [318, 200, 353, 477]}, {"id": "box.14", "bbox": [686, 354, 775, 475]}, {"id": "logo.15", "bbox": [34, 335, 65, 370]}, {"id": "man.16", "bbox": [716, 378, 782, 489]}, {"id": "plant.17", "bbox": [109, 398, 289, 462]}, {"id": "man.18", "bbox": [528, 375, 569, 477]}, {"id": "man.19", "bbox": [612, 376, 646, 467]}, {"id": "man.20", "bbox": [657, 382, 690, 476]}, {"id": "plant.21", "bbox": [462, 393, 532, 417]}, {"id": "shirt.22", "bbox": [612, 387, 646, 428]}, {"id": "tree.23", "bbox": [133, 67, 407, 439]}]	[{"subject": "man.19", "predicate": "wears", "object": "shirt.22"}, {"subject": "leaf.4", "predicate": "on", "object": "tree.3"}, {"subject": "leaf.10", "predicate": "on", "object": "tree.6"}, {"subject": "building.7", "predicate": "has", "object": "window.9"}, {"subject": "window.9", "predicate": "near", "object": "street.2"}, {"subject": "tree.3", "predicate": "has", "object": "leaf.4"}]
49	Generate a structured scene graph for an image of size (600 x 800) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (600 x 800) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 102, 549]}, {"id": "building.2", "bbox": [413, 0, 597, 799]}, {"id": "street.3", "bbox": [0, 594, 597, 796]}, {"id": "window.4", "bbox": [472, 10, 516, 288]}, {"id": "man.5", "bbox": [389, 564, 495, 787]}, {"id": "woman.6", "bbox": [75, 551, 167, 797]}, {"id": "man.7", "bbox": [275, 553, 353, 763]}, {"id": "vehicle.8", "bbox": [0, 584, 84, 673]}, {"id": "pole.9", "bbox": [225, 324, 266, 554]}, {"id": "jacket.10", "bbox": [276, 574, 356, 656]}, {"id": "bag.11", "bbox": [417, 594, 469, 692]}, {"id": "girl.12", "bbox": [369, 563, 403, 686]}, {"id": "bag.13", "bbox": [73, 592, 118, 688]}, {"id": "shirt.14", "bbox": [106, 587, 145, 669]}, {"id": "sign.15", "bbox": [225, 453, 289, 499]}, {"id": "coat.16", "bbox": [370, 578, 404, 638]}, {"id": "car.17", "bbox": [0, 550, 44, 578]}, {"id": "plant.18", "bbox": [151, 578, 183, 622]}, {"id": "bag.19", "bbox": [291, 581, 350, 676]}]	[{"subject": "girl.12", "predicate": "in", "object": "coat.16"}, {"subject": "woman.6", "predicate": "with", "object": "shirt.14"}, {"subject": "man.7", "predicate": "wearing", "object": "jacket.10"}, {"subject": "man.7", "predicate": "has", "object": "bag.19"}, {"subject": "woman.6", "predicate": "carrying", "object": "bag.13"}, {"subject": "man.5", "predicate": "carrying", "object": "bag.11"}, {"subject": "street.3", "predicate": "has", "object": "sign.15"}, {"subject": "sign.15", "predicate": "on", "object": "building.1"}, {"subject": "woman.6", "predicate": "has", "object": "bag.13"}, {"subject": "window.4", "predicate": "on", "object": "building.2"}]
50	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "paper.1", "bbox": [92, 39, 617, 334]}, {"id": "book.2", "bbox": [645, 217, 796, 564]}, {"id": "book.3", "bbox": [119, 96, 247, 256]}, {"id": "desk.4", "bbox": [192, 530, 455, 599]}, {"id": "book.5", "bbox": [301, 201, 471, 379]}, {"id": "book.6", "bbox": [396, 443, 492, 538]}, {"id": "book.7", "bbox": [200, 562, 455, 596]}, {"id": "table.8", "bbox": [0, 297, 754, 599]}, {"id": "cup.9", "bbox": [371, 380, 439, 460]}, {"id": "board.10", "bbox": [253, 61, 378, 164]}, {"id": "lamp.11", "bbox": [5, 103, 118, 388]}]	[{"subject": "book.2", "predicate": "on", "object": "desk.4"}, {"subject": "book.7", "predicate": "on", "object": "desk.4"}, {"subject": "book.6", "predicate": "on", "object": "desk.4"}, {"subject": "book.3", "predicate": "on", "object": "desk.4"}, {"subject": "book.7", "predicate": "on", "object": "desk.4"}, {"subject": "book.3", "predicate": "on", "object": "paper.1"}, {"subject": "paper.1", "predicate": "above", "object": "table.8"}, {"subject": "cup.9", "predicate": "above", "object": "table.8"}, {"subject": "lamp.11", "predicate": "above", "object": "table.8"}, {"subject": "book.5", "predicate": "above", "object": "table.8"}, {"subject": "paper.1", "predicate": "above", "object": "desk.4"}, {"subject": "book.5", "predicate": "above", "object": "desk.4"}, {"subject": "cup.9", "predicate": "above", "object": "table.8"}]
53	Generate a structured scene graph for an image of size (800 x 534) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 534) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [453, 1, 797, 332]}, {"id": "building.2", "bbox": [125, 0, 414, 328]}, {"id": "building.3", "bbox": [0, 0, 194, 479]}, {"id": "sidewalk.4", "bbox": [0, 361, 711, 531]}, {"id": "tree.5", "bbox": [307, 3, 467, 340]}, {"id": "car.6", "bbox": [546, 317, 756, 523]}, {"id": "street.7", "bbox": [110, 325, 751, 437]}, {"id": "phone.8", "bbox": [408, 182, 493, 439]}, {"id": "post.9", "bbox": [371, 325, 396, 381]}, {"id": "car.10", "bbox": [622, 300, 757, 355]}, {"id": "window.11", "bbox": [612, 90, 635, 214]}, {"id": "wheel.12", "bbox": [685, 445, 756, 520]}, {"id": "motorcycle.13", "bbox": [585, 306, 635, 346]}, {"id": "person.14", "bbox": [606, 292, 631, 344]}]	[{"subject": "building.1", "predicate": "has", "object": "window.11"}, {"subject": "building.1", "predicate": "has", "object": "window.11"}, {"subject": "person.14", "predicate": "riding", "object": "motorcycle.13"}, {"subject": "wheel.12", "predicate": "of", "object": "car.6"}, {"subject": "car.6", "predicate": "has", "object": "wheel.12"}, {"subject": "phone.8", "predicate": "on", "object": "sidewalk.4"}, {"subject": "building.1", "predicate": "has", "object": "window.11"}, {"subject": "person.14", "predicate": "on", "object": "motorcycle.13"}, {"subject": "car.10", "predicate": "near", "object": "motorcycle.13"}, {"subject": "phone.8", "predicate": "on", "object": "sidewalk.4"}, {"subject": "person.14", "predicate": "on", "object": "motorcycle.13"}]
54	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 636, 457]}, {"id": "car.2", "bbox": [39, 436, 396, 592]}, {"id": "fence.3", "bbox": [404, 379, 796, 460]}, {"id": "building.4", "bbox": [676, 157, 797, 381]}, {"id": "door.5", "bbox": [132, 440, 228, 561]}, {"id": "person.6", "bbox": [492, 408, 572, 574]}, {"id": "window.7", "bbox": [735, 221, 798, 385]}, {"id": "person.8", "bbox": [755, 404, 797, 567]}, {"id": "bike.9", "bbox": [561, 426, 671, 482]}, {"id": "pant.10", "bbox": [496, 489, 567, 571]}, {"id": "windshield.11", "bbox": [207, 446, 299, 490]}, {"id": "leg.12", "bbox": [524, 495, 571, 575]}, {"id": "jacket.13", "bbox": [501, 429, 551, 496]}, {"id": "person.14", "bbox": [526, 404, 564, 545]}, {"id": "wheel.15", "bbox": [244, 530, 303, 594]}, {"id": "pole.16", "bbox": [312, 223, 329, 487]}, {"id": "leg.17", "bbox": [765, 482, 789, 564]}, {"id": "leg.18", "bbox": [493, 500, 530, 567]}, {"id": "window.19", "bbox": [78, 442, 144, 487]}, {"id": "wheel.20", "bbox": [51, 514, 99, 569]}, {"id": "tire.21", "bbox": [626, 444, 672, 483]}, {"id": "window.22", "bbox": [195, 133, 221, 196]}, {"id": "leg.23", "bbox": [560, 500, 589, 555]}, {"id": "leg.24", "bbox": [600, 500, 625, 564]}, {"id": "window.25", "bbox": [197, 80, 224, 135]}, {"id": "shirt.26", "bbox": [578, 439, 612, 482]}, {"id": "window.27", "bbox": [418, 164, 432, 260]}, {"id": "person.28", "bbox": [560, 420, 624, 559]}]	[{"subject": "building.1", "predicate": "has", "object": "window.22"}, {"subject": "building.1", "predicate": "has", "object": "window.25"}, {"subject": "building.1", "predicate": "has", "object": "window.27"}, {"subject": "person.8", "predicate": "has", "object": "leg.17"}, {"subject": "person.28", "predicate": "has", "object": "leg.24"}, {"subject": "person.6", "predicate": "has", "object": "leg.12"}, {"subject": "person.6", "predicate": "has", "object": "leg.18"}, {"subject": "person.28", "predicate": "has", "object": "leg.23"}, {"subject": "car.2", "predicate": "has", "object": "wheel.15"}, {"subject": "car.2", "predicate": "has", "object": "wheel.20"}, {"subject": "car.2", "predicate": "has", "object": "windshield.11"}, {"subject": "car.2", "predicate": "has", "object": "window.19"}, {"subject": "person.28", "predicate": "has", "object": "leg.23"}, {"subject": "person.28", "predicate": "has", "object": "leg.24"}, {"subject": "building.4", "predicate": "has", "object": "window.7"}, {"subject": "bike.9", "predicate": "has", "object": "tire.21"}, {"subject": "person.28", "predicate": "wearing", "object": "shirt.26"}, {"subject": "person.6", "predicate": "wearing", "object": "jacket.13"}, {"subject": "car.2", "predicate": "has", "object": "door.5"}, {"subject": "person.6", "predicate": "wearing", "object": "pant.10"}]
55	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [662, 0, 800, 435]}, {"id": "building.2", "bbox": [180, 0, 758, 436]}, {"id": "building.3", "bbox": [0, 203, 187, 310]}, {"id": "street.4", "bbox": [0, 382, 799, 596]}, {"id": "wheel.5", "bbox": [7, 378, 140, 424]}, {"id": "pole.6", "bbox": [33, 0, 114, 598]}, {"id": "bus.7", "bbox": [0, 311, 275, 432]}, {"id": "sidewalk.8", "bbox": [246, 414, 796, 478]}, {"id": "flower.9", "bbox": [0, 0, 226, 192]}, {"id": "window.10", "bbox": [562, 200, 622, 278]}, {"id": "vehicle.11", "bbox": [745, 368, 795, 448]}, {"id": "windshield.12", "bbox": [185, 334, 267, 390]}, {"id": "window.13", "bbox": [562, 308, 619, 378]}, {"id": "window.14", "bbox": [560, 100, 615, 175]}, {"id": "window.15", "bbox": [496, 213, 528, 286]}, {"id": "bike.16", "bbox": [467, 384, 528, 425]}, {"id": "woman.17", "bbox": [432, 366, 460, 422]}, {"id": "window.18", "bbox": [493, 121, 521, 192]}, {"id": "person.19", "bbox": [442, 365, 463, 425]}, {"id": "person.20", "bbox": [336, 362, 361, 424]}, {"id": "person.21", "bbox": [288, 367, 311, 423]}, {"id": "window.22", "bbox": [447, 138, 470, 203]}, {"id": "bike.23", "bbox": [0, 440, 167, 595]}, {"id": "pole.24", "bbox": [10, 103, 156, 595]}]	[{"subject": "flower.9", "predicate": "from", "object": "pole.6"}, {"subject": "bike.23", "predicate": "near", "object": "pole.24"}, {"subject": "bus.7", "predicate": "on", "object": "street.4"}, {"subject": "bike.16", "predicate": "near", "object": "building.2"}, {"subject": "vehicle.11", "predicate": "on", "object": "sidewalk.8"}, {"subject": "window.14", "predicate": "in", "object": "building.2"}, {"subject": "flower.9", "predicate": "on", "object": "pole.6"}, {"subject": "wheel.5", "predicate": "under", "object": "bus.7"}, {"subject": "window.15", "predicate": "on", "object": "building.2"}, {"subject": "window.18", "predicate": "on", "object": "building.2"}, {"subject": "window.13", "predicate": "on", "object": "building.2"}, {"subject": "window.10", "predicate": "on", "object": "building.2"}, {"subject": "window.14", "predicate": "on", "object": "building.2"}, {"subject": "window.22", "predicate": "on", "object": "building.2"}]
56	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 200, 461]}, {"id": "building.2", "bbox": [421, 0, 715, 254]}, {"id": "window.3", "bbox": [96, 76, 176, 238]}, {"id": "window.4", "bbox": [453, 69, 533, 158]}, {"id": "window.5", "bbox": [235, 133, 280, 235]}, {"id": "window.6", "bbox": [328, 160, 367, 247]}, {"id": "window.7", "bbox": [550, 104, 575, 167]}, {"id": "window.8", "bbox": [585, 121, 608, 180]}, {"id": "building.9", "bbox": [0, 42, 417, 477]}]	[{"subject": "window.4", "predicate": "on", "object": "building.2"}, {"subject": "window.7", "predicate": "on", "object": "building.2"}, {"subject": "window.8", "predicate": "on", "object": "building.2"}, {"subject": "window.3", "predicate": "on", "object": "building.1"}, {"subject": "window.5", "predicate": "on", "object": "building.1"}, {"subject": "window.6", "predicate": "on", "object": "building.9"}, {"subject": "window.7", "predicate": "on", "object": "building.2"}, {"subject": "window.8", "predicate": "on", "object": "building.2"}]
57	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [0, 358, 799, 596]}, {"id": "building.2", "bbox": [0, 0, 222, 410]}, {"id": "sidewalk.3", "bbox": [0, 357, 799, 462]}, {"id": "sign.4", "bbox": [28, 180, 217, 244]}, {"id": "car.5", "bbox": [373, 333, 579, 429]}, {"id": "man.6", "bbox": [431, 316, 515, 496]}, {"id": "people.7", "bbox": [261, 322, 296, 409]}]	[{"subject": "people.7", "predicate": "on", "object": "street.1"}, {"subject": "car.5", "predicate": "in", "object": "street.1"}, {"subject": "sign.4", "predicate": "hanging from", "object": "building.2"}]
58	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [0, 335, 790, 594]}, {"id": "building.2", "bbox": [268, 0, 564, 444]}, {"id": "building.3", "bbox": [553, 0, 796, 491]}, {"id": "chair.4", "bbox": [261, 342, 524, 453]}, {"id": "window.5", "bbox": [112, 0, 275, 165]}, {"id": "table.6", "bbox": [303, 353, 487, 450]}, {"id": "window.7", "bbox": [736, 171, 795, 404]}, {"id": "man.8", "bbox": [605, 310, 669, 478]}, {"id": "sign.9", "bbox": [440, 104, 531, 178]}, {"id": "woman.10", "bbox": [200, 310, 256, 459]}, {"id": "pant.11", "bbox": [607, 381, 664, 471]}, {"id": "shirt.12", "bbox": [603, 332, 670, 389]}, {"id": "letter.13", "bbox": [444, 113, 524, 169]}, {"id": "guy.14", "bbox": [231, 303, 256, 361]}]	[{"subject": "sign.9", "predicate": "with", "object": "letter.13"}, {"subject": "man.8", "predicate": "wearing", "object": "shirt.12"}, {"subject": "chair.4", "predicate": "near", "object": "building.2"}]
59	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [350, 0, 796, 397]}, {"id": "street.2", "bbox": [0, 397, 680, 596]}, {"id": "car.3", "bbox": [362, 318, 628, 510]}, {"id": "board.4", "bbox": [432, 144, 615, 228]}, {"id": "man.5", "bbox": [736, 250, 799, 469]}, {"id": "sign.6", "bbox": [487, 0, 754, 53]}, {"id": "railing.7", "bbox": [192, 318, 417, 387]}, {"id": "truck.8", "bbox": [0, 239, 35, 425]}, {"id": "sign.9", "bbox": [685, 68, 751, 148]}, {"id": "shirt.10", "bbox": [735, 282, 796, 367]}, {"id": "car.11", "bbox": [42, 342, 138, 422]}, {"id": "motorcycle.12", "bbox": [557, 339, 741, 539]}, {"id": "light.13", "bbox": [425, 397, 477, 425]}, {"id": "sign.14", "bbox": [425, 139, 620, 227]}, {"id": "person.15", "bbox": [743, 250, 796, 471]}, {"id": "sign.16", "bbox": [346, 118, 428, 207]}, {"id": "sign.17", "bbox": [128, 242, 180, 267]}]	[{"subject": "truck.8", "predicate": "on", "object": "street.2"}, {"subject": "man.5", "predicate": "has", "object": "shirt.10"}, {"subject": "car.3", "predicate": "has", "object": "light.13"}, {"subject": "person.15", "predicate": "wearing", "object": "shirt.10"}, {"subject": "sign.16", "predicate": "on", "object": "building.1"}]
60	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [1, 241, 574, 597]}, {"id": "bike.2", "bbox": [160, 207, 287, 428]}, {"id": "pole.3", "bbox": [589, 0, 607, 600]}, {"id": "building.4", "bbox": [42, 5, 791, 597]}, {"id": "light.5", "bbox": [1, 14, 96, 85]}, {"id": "window.6", "bbox": [355, 0, 422, 129]}, {"id": "pole.7", "bbox": [319, 1, 332, 278]}, {"id": "tire.8", "bbox": [230, 339, 267, 430]}, {"id": "tire.9", "bbox": [389, 442, 444, 542]}, {"id": "seat.10", "bbox": [332, 342, 431, 374]}]	[{"subject": "pole.3", "predicate": "on", "object": "building.4"}, {"subject": "pole.7", "predicate": "on", "object": "building.4"}, {"subject": "tire.8", "predicate": "on", "object": "bike.2"}, {"subject": "pole.3", "predicate": "attached to", "object": "building.4"}, {"subject": "building.4", "predicate": "has", "object": "window.6"}]
62	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "window.1", "bbox": [328, 76, 377, 135]}, {"id": "building.2", "bbox": [303, 0, 616, 287]}, {"id": "window.3", "bbox": [527, 82, 577, 140]}, {"id": "window.4", "bbox": [430, 83, 478, 135]}, {"id": "window.5", "bbox": [532, 13, 576, 75]}, {"id": "window.6", "bbox": [429, 10, 475, 67]}, {"id": "window.7", "bbox": [329, 11, 374, 66]}, {"id": "window.8", "bbox": [209, 90, 264, 167]}, {"id": "building.9", "bbox": [4, 0, 307, 317]}, {"id": "window.10", "bbox": [125, 100, 175, 171]}, {"id": "window.11", "bbox": [220, 33, 259, 78]}, {"id": "window.12", "bbox": [160, 35, 205, 80]}, {"id": "window.13", "bbox": [108, 36, 147, 77]}, {"id": "window.14", "bbox": [532, 158, 568, 210]}, {"id": "car.15", "bbox": [157, 278, 709, 577]}, {"id": "car.16", "bbox": [120, 280, 232, 318]}, {"id": "street.17", "bbox": [0, 314, 794, 599]}, {"id": "car.18", "bbox": [637, 282, 728, 326]}, {"id": "sidewalk.19", "bbox": [0, 299, 321, 360]}, {"id": "woman.20", "bbox": [44, 269, 79, 358]}, {"id": "truck.21", "bbox": [725, 115, 796, 439]}, {"id": "plant.22", "bbox": [0, 322, 68, 421]}, {"id": "plant.23", "bbox": [217, 289, 277, 330]}, {"id": "plant.24", "bbox": [60, 297, 192, 371]}, {"id": "tire.25", "bbox": [628, 424, 699, 512]}, {"id": "tire.26", "bbox": [267, 461, 380, 571]}, {"id": "person.27", "bbox": [322, 271, 343, 318]}, {"id": "window.28", "bbox": [432, 157, 467, 205]}]	[{"subject": "window.1", "predicate": "on", "object": "building.2"}, {"subject": "window.3", "predicate": "on", "object": "building.2"}, {"subject": "window.4", "predicate": "on", "object": "building.2"}, {"subject": "window.5", "predicate": "on", "object": "building.2"}, {"subject": "window.6", "predicate": "on", "object": "building.2"}, {"subject": "window.7", "predicate": "on", "object": "building.2"}, {"subject": "window.8", "predicate": "on", "object": "building.9"}, {"subject": "window.10", "predicate": "on", "object": "building.9"}, {"subject": "window.11", "predicate": "on", "object": "building.9"}, {"subject": "window.12", "predicate": "on", "object": "building.9"}, {"subject": "window.13", "predicate": "on", "object": "building.9"}, {"subject": "window.4", "predicate": "on", "object": "building.2"}, {"subject": "window.8", "predicate": "on", "object": "building.9"}, {"subject": "window.10", "predicate": "on", "object": "building.9"}, {"subject": "window.14", "predicate": "on", "object": "building.2"}, {"subject": "window.6", "predicate": "on", "object": "building.2"}, {"subject": "window.5", "predicate": "on", "object": "building.2"}, {"subject": "window.7", "predicate": "on", "object": "building.2"}, {"subject": "window.11", "predicate": "on", "object": "building.9"}, {"subject": "window.13", "predicate": "on", "object": "building.9"}, {"subject": "window.13", "predicate": "on", "object": "building.9"}, {"subject": "car.16", "predicate": "on", "object": "street.17"}, {"subject": "car.18", "predicate": "on", "object": "street.17"}, {"subject": "car.15", "predicate": "on", "object": "street.17"}, {"subject": "truck.21", "predicate": "behind", "object": "car.15"}, {"subject": "window.28", "predicate": "on", "object": "building.2"}, {"subject": "window.28", "predicate": "on", "object": "building.9"}]
63	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 125, 794, 592]}, {"id": "counter.2", "bbox": [0, 0, 796, 277]}, {"id": "plate.3", "bbox": [467, 260, 772, 540]}, {"id": "plate.4", "bbox": [29, 176, 256, 336]}, {"id": "plate.5", "bbox": [310, 131, 530, 273]}, {"id": "handle.6", "bbox": [55, 452, 93, 552]}, {"id": "handle.7", "bbox": [418, 380, 485, 551]}, {"id": "handle.8", "bbox": [286, 375, 357, 507]}, {"id": "fork.9", "bbox": [297, 299, 339, 496]}, {"id": "handle.10", "bbox": [271, 217, 290, 281]}, {"id": "fork.11", "bbox": [263, 164, 305, 291]}, {"id": "handle.12", "bbox": [296, 392, 337, 477]}]	[{"subject": "fork.9", "predicate": "on", "object": "table.1"}, {"subject": "fork.11", "predicate": "on", "object": "table.1"}, {"subject": "fork.9", "predicate": "on", "object": "table.1"}, {"subject": "plate.4", "predicate": "on", "object": "table.1"}, {"subject": "plate.5", "predicate": "on", "object": "table.1"}, {"subject": "plate.3", "predicate": "on", "object": "table.1"}, {"subject": "plate.3", "predicate": "on", "object": "table.1"}, {"subject": "fork.9", "predicate": "has", "object": "handle.12"}, {"subject": "fork.11", "predicate": "on", "object": "table.1"}, {"subject": "plate.4", "predicate": "on", "object": "table.1"}, {"subject": "handle.8", "predicate": "on", "object": "fork.9"}, {"subject": "plate.4", "predicate": "on", "object": "table.1"}, {"subject": "fork.11", "predicate": "with", "object": "handle.8"}, {"subject": "plate.4", "predicate": "with", "object": "plate.3"}, {"subject": "plate.5", "predicate": "with", "object": "plate.3"}, {"subject": "fork.9", "predicate": "with", "object": "handle.8"}, {"subject": "table.1", "predicate": "with", "object": "plate.5"}]
64	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tree.1", "bbox": [375, 315, 501, 400]}, {"id": "woman.2", "bbox": [389, 405, 432, 504]}, {"id": "jacket.3", "bbox": [390, 425, 424, 469]}, {"id": "building.4", "bbox": [462, 10, 710, 343]}, {"id": "post.5", "bbox": [549, 340, 562, 445]}, {"id": "man.6", "bbox": [728, 389, 755, 449]}, {"id": "pole.7", "bbox": [50, 0, 122, 560]}, {"id": "sidewalk.8", "bbox": [290, 486, 521, 525]}, {"id": "building.9", "bbox": [313, 186, 416, 352]}, {"id": "street.10", "bbox": [358, 547, 729, 593]}, {"id": "window.11", "bbox": [549, 36, 606, 70]}, {"id": "person.12", "bbox": [658, 393, 679, 449]}, {"id": "building.13", "bbox": [129, 214, 468, 337]}]	[{"subject": "woman.2", "predicate": "wearing", "object": "jacket.3"}, {"subject": "woman.2", "predicate": "on", "object": "sidewalk.8"}, {"subject": "pole.7", "predicate": "near", "object": "street.10"}, {"subject": "building.4", "predicate": "has", "object": "window.11"}, {"subject": "woman.2", "predicate": "wearing", "object": "jacket.3"}]
65	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "car.1", "bbox": [0, 0, 798, 599]}, {"id": "car.2", "bbox": [468, 80, 798, 328]}, {"id": "sidewalk.3", "bbox": [0, 304, 286, 596]}, {"id": "window.4", "bbox": [257, 160, 502, 284]}, {"id": "man.5", "bbox": [367, 50, 497, 239]}, {"id": "tire.6", "bbox": [268, 436, 349, 550]}, {"id": "truck.7", "bbox": [179, 75, 325, 148]}, {"id": "plate.8", "bbox": [457, 400, 592, 474]}, {"id": "light.9", "bbox": [350, 383, 420, 447]}, {"id": "hair.10", "bbox": [411, 62, 450, 104]}, {"id": "sign.11", "bbox": [281, 0, 320, 29]}]	[{"subject": "man.5", "predicate": "with", "object": "hair.10"}]
69	Generate a structured scene graph for an image of size (640 x 480) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (640 x 480) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 0, 639, 479]}, {"id": "plate.2", "bbox": [185, 26, 557, 401]}]	[{"subject": "table.1", "predicate": "under", "object": "plate.2"}]
70	Generate a structured scene graph for an image of size (600 x 446) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (600 x 446) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 599, 445]}, {"id": "chair.2", "bbox": [66, 280, 592, 442]}, {"id": "jacket.3", "bbox": [446, 142, 489, 197]}, {"id": "woman.4", "bbox": [48, 208, 164, 319]}, {"id": "man.5", "bbox": [401, 118, 444, 274]}, {"id": "man.6", "bbox": [364, 127, 401, 247]}, {"id": "woman.7", "bbox": [263, 181, 364, 292]}, {"id": "man.8", "bbox": [181, 185, 305, 306]}, {"id": "jacket.9", "bbox": [50, 253, 166, 319]}, {"id": "chair.10", "bbox": [139, 242, 215, 294]}, {"id": "hand.11", "bbox": [268, 273, 306, 297]}, {"id": "woman.12", "bbox": [483, 148, 515, 247]}, {"id": "shirt.13", "bbox": [485, 162, 515, 201]}, {"id": "paper.14", "bbox": [420, 202, 445, 233]}, {"id": "bag.15", "bbox": [442, 200, 460, 238]}, {"id": "person.16", "bbox": [216, 191, 303, 241]}, {"id": "man.17", "bbox": [450, 109, 493, 267]}, {"id": "men.18", "bbox": [329, 98, 490, 243]}]	[{"subject": "person.16", "predicate": "in", "object": "chair.10"}, {"subject": "person.16", "predicate": "in", "object": "chair.10"}, {"subject": "person.16", "predicate": "on", "object": "chair.10"}, {"subject": "man.5", "predicate": "wearing", "object": "jacket.3"}, {"subject": "woman.12", "predicate": "wearing", "object": "shirt.13"}, {"subject": "man.8", "predicate": "in", "object": "shirt.13"}, {"subject": "man.8", "predicate": "looking at", "object": "hand.11"}, {"subject": "man.6", "predicate": "holding", "object": "bag.15"}, {"subject": "man.8", "predicate": "at", "object": "hand.11"}, {"subject": "man.5", "predicate": "holding", "object": "paper.14"}]
71	Generate a structured scene graph for an image of size (500 x 375) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (500 x 375) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "woman.1", "bbox": [196, 153, 337, 371]}, {"id": "desk.2", "bbox": [197, 263, 434, 373]}, {"id": "light.3", "bbox": [20, 0, 284, 88]}, {"id": "woman.4", "bbox": [131, 138, 218, 373]}, {"id": "table.5", "bbox": [124, 221, 212, 372]}, {"id": "woman.6", "bbox": [302, 132, 447, 228]}, {"id": "shirt.7", "bbox": [195, 207, 303, 295]}, {"id": "jacket.8", "bbox": [327, 165, 446, 222]}, {"id": "box.9", "bbox": [312, 222, 419, 291]}, {"id": "jean.10", "bbox": [206, 317, 341, 373]}, {"id": "pant.11", "bbox": [147, 270, 215, 373]}, {"id": "hair.12", "bbox": [211, 156, 287, 241]}, {"id": "jacket.13", "bbox": [129, 178, 216, 234]}, {"id": "hair.14", "bbox": [150, 139, 192, 180]}, {"id": "bowl.15", "bbox": [300, 275, 337, 298]}, {"id": "hand.16", "bbox": [303, 200, 333, 224]}, {"id": "desk.17", "bbox": [124, 233, 222, 372]}]	[{"subject": "woman.4", "predicate": "sitting on", "object": "desk.17"}, {"subject": "woman.4", "predicate": "wearing", "object": "pant.11"}, {"subject": "woman.6", "predicate": "has", "object": "hand.16"}, {"subject": "woman.4", "predicate": "at", "object": "table.5"}, {"subject": "bowl.15", "predicate": "sitting on", "object": "desk.2"}]
72	Generate a structured scene graph for an image of size (495 x 247) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (495 x 247) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "people.1", "bbox": [0, 0, 48, 35]}, {"id": "table.2", "bbox": [0, 114, 432, 245]}, {"id": "person.3", "bbox": [38, 12, 145, 134]}, {"id": "person.4", "bbox": [169, 13, 250, 114]}, {"id": "person.5", "bbox": [233, 5, 334, 126]}, {"id": "woman.6", "bbox": [425, 65, 493, 240]}, {"id": "woman.7", "bbox": [0, 18, 70, 165]}, {"id": "shirt.8", "bbox": [38, 52, 144, 123]}, {"id": "jacket.9", "bbox": [246, 37, 329, 122]}, {"id": "head.10", "bbox": [197, 13, 238, 55]}, {"id": "head.11", "bbox": [339, 25, 381, 76]}, {"id": "head.12", "bbox": [81, 13, 121, 60]}, {"id": "glass.13", "bbox": [93, 149, 120, 223]}, {"id": "woman.14", "bbox": [450, 120, 492, 245]}, {"id": "head.15", "bbox": [263, 4, 298, 46]}, {"id": "head.16", "bbox": [0, 17, 41, 77]}, {"id": "hair.17", "bbox": [0, 14, 40, 53]}, {"id": "hair.18", "bbox": [198, 13, 238, 43]}, {"id": "shirt.19", "bbox": [0, 75, 39, 164]}, {"id": "glass.20", "bbox": [430, 105, 481, 124]}, {"id": "glass.21", "bbox": [86, 30, 118, 41]}, {"id": "arm.22", "bbox": [228, 57, 251, 91]}, {"id": "glass.23", "bbox": [292, 104, 311, 146]}, {"id": "man.24", "bbox": [262, 8, 325, 120]}, {"id": "woman.25", "bbox": [168, 11, 243, 118]}, {"id": "man.26", "bbox": [55, 14, 144, 124]}, {"id": "person.27", "bbox": [330, 15, 426, 155]}, {"id": "person.28", "bbox": [2, 12, 44, 153]}]	[{"subject": "glass.13", "predicate": "on", "object": "table.2"}, {"subject": "glass.13", "predicate": "near", "object": "man.24"}, {"subject": "glass.21", "predicate": "on", "object": "man.26"}, {"subject": "people.1", "predicate": "at", "object": "table.2"}, {"subject": "glass.20", "predicate": "on", "object": "woman.6"}, {"subject": "woman.7", "predicate": "in", "object": "shirt.19"}, {"subject": "glass.13", "predicate": "on", "object": "table.2"}, {"subject": "glass.13", "predicate": "on", "object": "table.2"}, {"subject": "glass.13", "predicate": "on", "object": "table.2"}, {"subject": "glass.13", "predicate": "on", "object": "table.2"}, {"subject": "glass.13", "predicate": "on", "object": "table.2"}, {"subject": "woman.6", "predicate": "wearing", "object": "glass.20"}, {"subject": "man.24", "predicate": "has", "object": "arm.22"}, {"subject": "person.27", "predicate": "has", "object": "head.11"}, {"subject": "person.5", "predicate": "has", "object": "head.15"}, {"subject": "person.4", "predicate": "has", "object": "head.10"}, {"subject": "head.12", "predicate": "of", "object": "person.3"}, {"subject": "person.28", "predicate": "with", "object": "head.16"}]
73	Generate a structured scene graph for an image of size (800 x 533) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 533) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "leg.1", "bbox": [707, 339, 729, 442]}, {"id": "chair.2", "bbox": [660, 239, 753, 463]}, {"id": "man.3", "bbox": [35, 130, 239, 339]}, {"id": "glass.4", "bbox": [114, 157, 164, 180]}, {"id": "woman.5", "bbox": [198, 119, 314, 285]}, {"id": "shirt.6", "bbox": [200, 182, 316, 299]}, {"id": "woman.7", "bbox": [242, 171, 492, 518]}, {"id": "chair.8", "bbox": [267, 400, 479, 531]}, {"id": "man.9", "bbox": [467, 131, 607, 443]}, {"id": "chair.10", "bbox": [459, 348, 575, 529]}, {"id": "woman.11", "bbox": [583, 132, 681, 391]}, {"id": "chair.12", "bbox": [558, 260, 689, 517]}, {"id": "bottle.13", "bbox": [207, 250, 257, 343]}, {"id": "hand.14", "bbox": [338, 380, 389, 462]}, {"id": "glass.15", "bbox": [132, 292, 166, 352]}, {"id": "hair.16", "bbox": [482, 134, 562, 173]}, {"id": "hair.17", "bbox": [620, 133, 671, 183]}, {"id": "table.18", "bbox": [0, 129, 796, 514]}, {"id": "hair.19", "bbox": [0, 351, 57, 520]}, {"id": "tie.20", "bbox": [472, 222, 525, 331]}, {"id": "shirt.21", "bbox": [110, 192, 166, 305]}, {"id": "jacket.22", "bbox": [300, 267, 504, 529]}, {"id": "fork.23", "bbox": [214, 355, 255, 387]}]	[{"subject": "leg.1", "predicate": "of", "object": "chair.2"}, {"subject": "leg.1", "predicate": "of", "object": "chair.2"}, {"subject": "leg.1", "predicate": "of", "object": "chair.2"}, {"subject": "leg.1", "predicate": "of", "object": "chair.2"}, {"subject": "leg.1", "predicate": "of", "object": "chair.2"}, {"subject": "leg.1", "predicate": "of", "object": "chair.2"}, {"subject": "man.3", "predicate": "wearing", "object": "glass.4"}, {"subject": "woman.5", "predicate": "in", "object": "shirt.6"}, {"subject": "woman.7", "predicate": "sitting on", "object": "chair.8"}, {"subject": "man.9", "predicate": "sitting on", "object": "chair.10"}, {"subject": "woman.11", "predicate": "sitting on", "object": "chair.12"}, {"subject": "hand.14", "predicate": "of", "object": "woman.7"}, {"subject": "woman.5", "predicate": "wearing", "object": "shirt.6"}, {"subject": "man.9", "predicate": "with", "object": "hair.16"}, {"subject": "woman.11", "predicate": "with", "object": "hair.17"}, {"subject": "man.3", "predicate": "wearing", "object": "glass.4"}, {"subject": "table.18", "predicate": "in front of", "object": "woman.7"}, {"subject": "hair.19", "predicate": "at", "object": "table.18"}, {"subject": "man.9", "predicate": "wearing", "object": "tie.20"}, {"subject": "woman.11", "predicate": "with", "object": "hair.17"}, {"subject": "woman.5", "predicate": "in", "object": "shirt.6"}, {"subject": "glass.15", "predicate": "on", "object": "table.18"}, {"subject": "man.3", "predicate": "wearing", "object": "shirt.21"}, {"subject": "bottle.13", "predicate": "on", "object": "table.18"}, {"subject": "woman.11", "predicate": "with", "object": "hair.17"}, {"subject": "man.9", "predicate": "with", "object": "hair.16"}, {"subject": "woman.5", "predicate": "wearing", "object": "shirt.6"}, {"subject": "man.3", "predicate": "with", "object": "glass.4"}, {"subject": "woman.7", "predicate": "with", "object": "jacket.22"}, {"subject": "fork.23", "predicate": "in front of", "object": "woman.7"}]
74	Generate a structured scene graph for an image of size (800 x 599) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 599) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "screen.1", "bbox": [511, 19, 756, 314]}, {"id": "table.2", "bbox": [408, 418, 703, 596]}, {"id": "shelf.3", "bbox": [489, 308, 755, 500]}, {"id": "table.4", "bbox": [217, 375, 425, 543]}, {"id": "chair.5", "bbox": [437, 483, 601, 597]}, {"id": "sign.6", "bbox": [283, 78, 464, 189]}, {"id": "chair.7", "bbox": [354, 410, 457, 597]}, {"id": "chair.8", "bbox": [489, 392, 602, 550]}, {"id": "chair.9", "bbox": [200, 393, 314, 548]}, {"id": "chair.10", "bbox": [219, 365, 314, 492]}, {"id": "chair.11", "bbox": [364, 362, 446, 492]}, {"id": "man.12", "bbox": [516, 96, 586, 221]}, {"id": "woman.13", "bbox": [596, 92, 663, 213]}, {"id": "leaf.14", "bbox": [44, 308, 103, 417]}, {"id": "light.15", "bbox": [47, 11, 93, 132]}, {"id": "light.16", "bbox": [586, 0, 639, 95]}, {"id": "counter.17", "bbox": [48, 290, 289, 309]}, {"id": "light.18", "bbox": [332, 46, 370, 149]}, {"id": "light.19", "bbox": [181, 0, 251, 44]}, {"id": "light.20", "bbox": [0, 82, 28, 169]}, {"id": "light.21", "bbox": [206, 101, 237, 181]}, {"id": "people.22", "bbox": [516, 97, 669, 221]}]	[{"subject": "chair.9", "predicate": "near", "object": "table.4"}, {"subject": "chair.5", "predicate": "near", "object": "table.2"}, {"subject": "chair.7", "predicate": "near", "object": "table.2"}, {"subject": "chair.10", "predicate": "near", "object": "table.4"}, {"subject": "chair.11", "predicate": "near", "object": "table.4"}, {"subject": "people.22", "predicate": "on", "object": "screen.1"}, {"subject": "woman.13", "predicate": "on", "object": "screen.1"}, {"subject": "chair.8", "predicate": "near", "object": "table.2"}]
77	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 799, 595]}, {"id": "table.2", "bbox": [324, 404, 795, 595]}, {"id": "table.3", "bbox": [0, 248, 698, 435]}, {"id": "chair.4", "bbox": [72, 415, 243, 597]}, {"id": "man.5", "bbox": [600, 286, 789, 475]}, {"id": "light.6", "bbox": [480, 329, 796, 436]}, {"id": "window.7", "bbox": [692, 1, 797, 315]}, {"id": "chair.8", "bbox": [240, 382, 393, 582]}, {"id": "man.9", "bbox": [497, 264, 628, 411]}, {"id": "chair.10", "bbox": [460, 375, 598, 460]}, {"id": "man.11", "bbox": [650, 253, 733, 349]}, {"id": "head.12", "bbox": [682, 300, 742, 378]}, {"id": "wire.13", "bbox": [15, 430, 78, 525]}, {"id": "chair.14", "bbox": [578, 335, 635, 427]}, {"id": "screen.15", "bbox": [35, 289, 114, 347]}, {"id": "shirt.16", "bbox": [549, 293, 607, 350]}, {"id": "screen.17", "bbox": [202, 276, 267, 329]}, {"id": "hair.18", "bbox": [680, 303, 750, 353]}, {"id": "head.19", "bbox": [532, 267, 570, 303]}, {"id": "screen.20", "bbox": [367, 267, 412, 315]}, {"id": "sign.21", "bbox": [381, 160, 418, 217]}, {"id": "head.22", "bbox": [668, 253, 705, 286]}, {"id": "screen.23", "bbox": [469, 261, 506, 303]}, {"id": "screen.24", "bbox": [553, 257, 580, 295]}, {"id": "chair.25", "bbox": [612, 321, 692, 365]}, {"id": "desk.26", "bbox": [18, 289, 680, 389]}, {"id": "shirt.27", "bbox": [613, 352, 789, 464]}, {"id": "building.28", "bbox": [0, 0, 794, 435]}]	[{"subject": "man.9", "predicate": "wearing", "object": "shirt.16"}, {"subject": "man.5", "predicate": "wearing", "object": "shirt.27"}, {"subject": "man.5", "predicate": "in", "object": "room.1"}, {"subject": "window.7", "predicate": "on", "object": "building.28"}]
79	Generate a structured scene graph for an image of size (600 x 450) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (600 x 450) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 285, 278, 447]}, {"id": "light.2", "bbox": [8, 0, 121, 126]}, {"id": "window.3", "bbox": [220, 106, 326, 241]}, {"id": "chair.4", "bbox": [100, 323, 193, 447]}, {"id": "chair.5", "bbox": [246, 281, 311, 449]}, {"id": "chair.6", "bbox": [186, 298, 248, 448]}, {"id": "curtain.7", "bbox": [219, 94, 259, 264]}, {"id": "lamp.8", "bbox": [246, 166, 299, 270]}]	[{"subject": "light.2", "predicate": "over", "object": "table.1"}, {"subject": "table.1", "predicate": "and", "object": "chair.5"}, {"subject": "window.3", "predicate": "with", "object": "curtain.7"}, {"subject": "chair.5", "predicate": "under", "object": "table.1"}, {"subject": "chair.5", "predicate": "under", "object": "table.1"}, {"subject": "chair.5", "predicate": "under", "object": "table.1"}, {"subject": "chair.5", "predicate": "under", "object": "table.1"}, {"subject": "chair.5", "predicate": "at", "object": "table.1"}]
81	Generate a structured scene graph for an image of size (352 x 512) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (352 x 512) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "cabinet.1", "bbox": [0, 0, 51, 189]}, {"id": "cabinet.2", "bbox": [0, 349, 70, 510]}, {"id": "cabinet.3", "bbox": [116, 38, 184, 174]}, {"id": "door.4", "bbox": [0, 401, 71, 510]}, {"id": "cabinet.5", "bbox": [145, 276, 177, 440]}, {"id": "door.6", "bbox": [145, 311, 175, 441]}, {"id": "cabinet.7", "bbox": [197, 248, 225, 371]}, {"id": "cabinet.8", "bbox": [174, 265, 197, 401]}, {"id": "door.9", "bbox": [198, 270, 225, 373]}, {"id": "door.10", "bbox": [174, 290, 199, 402]}, {"id": "door.11", "bbox": [162, 57, 185, 170]}, {"id": "cabinet.12", "bbox": [215, 83, 227, 167]}, {"id": "cabinet.13", "bbox": [184, 67, 201, 127]}, {"id": "door.14", "bbox": [200, 75, 215, 128]}, {"id": "door.15", "bbox": [213, 80, 228, 166]}, {"id": "cabinet.16", "bbox": [198, 69, 217, 130]}, {"id": "door.17", "bbox": [2, 0, 52, 181]}, {"id": "door.18", "bbox": [183, 66, 202, 126]}]	[{"subject": "door.15", "predicate": "on", "object": "cabinet.12"}, {"subject": "door.14", "predicate": "on", "object": "cabinet.16"}, {"subject": "door.4", "predicate": "on", "object": "cabinet.2"}, {"subject": "door.6", "predicate": "on", "object": "cabinet.5"}, {"subject": "door.10", "predicate": "on", "object": "cabinet.8"}, {"subject": "door.9", "predicate": "for", "object": "cabinet.7"}, {"subject": "door.17", "predicate": "for", "object": "cabinet.1"}, {"subject": "door.11", "predicate": "for", "object": "cabinet.3"}, {"subject": "door.18", "predicate": "for", "object": "cabinet.13"}]
82	Generate a structured scene graph for an image of size (400 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (400 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "cabinet.1", "bbox": [2, 18, 383, 288]}, {"id": "counter.2", "bbox": [214, 312, 372, 556]}, {"id": "door.3", "bbox": [357, 142, 398, 530]}, {"id": "counter.4", "bbox": [0, 308, 228, 350]}, {"id": "door.5", "bbox": [355, 497, 397, 595]}, {"id": "sink.6", "bbox": [264, 346, 370, 380]}, {"id": "tile.7", "bbox": [4, 495, 266, 596]}]	[{"subject": "cabinet.1", "predicate": "above", "object": "counter.2"}, {"subject": "sink.6", "predicate": "on", "object": "counter.2"}]
83	Generate a structured scene graph for an image of size (800 x 534) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 534) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "book.1", "bbox": [276, 293, 440, 412]}, {"id": "lamp.2", "bbox": [712, 114, 799, 238]}, {"id": "girl.3", "bbox": [487, 100, 561, 200]}, {"id": "man.4", "bbox": [188, 96, 266, 187]}, {"id": "book.5", "bbox": [120, 285, 273, 350]}, {"id": "person.6", "bbox": [364, 100, 459, 223]}, {"id": "chair.7", "bbox": [103, 169, 271, 196]}, {"id": "table.8", "bbox": [0, 300, 799, 532]}, {"id": "tower.9", "bbox": [612, 111, 646, 160]}, {"id": "shirt.10", "bbox": [500, 125, 564, 188]}, {"id": "woman.11", "bbox": [485, 105, 550, 150]}]	[{"subject": "book.1", "predicate": "above", "object": "table.8"}, {"subject": "tower.9", "predicate": "above", "object": "table.8"}, {"subject": "lamp.2", "predicate": "on", "object": "table.8"}, {"subject": "chair.7", "predicate": "at", "object": "table.8"}]
84	Generate a structured scene graph for an image of size (645 x 800) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (645 x 800) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "door.1", "bbox": [139, 72, 470, 516]}, {"id": "seat.2", "bbox": [239, 385, 641, 656]}, {"id": "table.3", "bbox": [0, 421, 277, 767]}, {"id": "seat.4", "bbox": [329, 550, 641, 795]}, {"id": "lamp.5", "bbox": [85, 129, 270, 441]}, {"id": "flower.6", "bbox": [49, 208, 232, 417]}, {"id": "door.7", "bbox": [364, 68, 476, 389]}, {"id": "curtain.8", "bbox": [58, 15, 154, 446]}, {"id": "book.9", "bbox": [49, 543, 179, 563]}, {"id": "pillow.10", "bbox": [294, 414, 479, 496]}, {"id": "book.11", "bbox": [61, 686, 171, 716]}, {"id": "vase.12", "bbox": [105, 380, 172, 457]}, {"id": "book.13", "bbox": [60, 676, 185, 708]}, {"id": "book.14", "bbox": [1, 350, 58, 478]}, {"id": "shelf.15", "bbox": [33, 583, 182, 624]}, {"id": "glass.16", "bbox": [510, 500, 562, 581]}, {"id": "glass.17", "bbox": [430, 490, 480, 568]}, {"id": "book.18", "bbox": [39, 451, 130, 471]}, {"id": "book.19", "bbox": [47, 588, 171, 617]}, {"id": "book.20", "bbox": [45, 580, 173, 607]}, {"id": "book.21", "bbox": [53, 571, 185, 601]}, {"id": "book.22", "bbox": [58, 655, 197, 700]}, {"id": "book.23", "bbox": [46, 555, 178, 582]}, {"id": "book.24", "bbox": [58, 535, 178, 557]}, {"id": "shelf.25", "bbox": [43, 579, 192, 614]}]	[{"subject": "flower.6", "predicate": "in", "object": "vase.12"}, {"subject": "shelf.25", "predicate": "under", "object": "table.3"}, {"subject": "book.9", "predicate": "on", "object": "shelf.15"}, {"subject": "book.24", "predicate": "on", "object": "shelf.15"}, {"subject": "book.20", "predicate": "on", "object": "shelf.15"}, {"subject": "book.21", "predicate": "on", "object": "shelf.15"}, {"subject": "book.23", "predicate": "on", "object": "shelf.15"}, {"subject": "vase.12", "predicate": "in front of", "object": "lamp.5"}, {"subject": "flower.6", "predicate": "in", "object": "vase.12"}, {"subject": "curtain.8", "predicate": "behind", "object": "lamp.5"}, {"subject": "pillow.10", "predicate": "on", "object": "seat.2"}]
85	Generate a structured scene graph for an image of size (800 x 535) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 535) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "cabinet.1", "bbox": [0, 220, 311, 532]}, {"id": "table.2", "bbox": [475, 312, 646, 532]}, {"id": "chair.3", "bbox": [143, 254, 310, 446]}, {"id": "cabinet.4", "bbox": [0, 317, 76, 533]}, {"id": "flower.5", "bbox": [25, 139, 103, 258]}, {"id": "screen.6", "bbox": [423, 197, 510, 266]}, {"id": "lamp.7", "bbox": [633, 187, 697, 282]}, {"id": "table.8", "bbox": [611, 265, 706, 320]}, {"id": "pot.9", "bbox": [51, 250, 92, 285]}, {"id": "lamp.10", "bbox": [646, 238, 679, 291]}]	[{"subject": "flower.5", "predicate": "in", "object": "pot.9"}, {"subject": "lamp.7", "predicate": "on", "object": "table.8"}]
86	Generate a structured scene graph for an image of size (550 x 372) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (550 x 372) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "person.1", "bbox": [209, 168, 273, 281]}, {"id": "train.2", "bbox": [42, 3, 493, 356]}, {"id": "man.3", "bbox": [168, 165, 261, 319]}, {"id": "person.4", "bbox": [66, 180, 176, 359]}, {"id": "man.5", "bbox": [179, 166, 264, 315]}, {"id": "person.6", "bbox": [77, 165, 179, 257]}, {"id": "shoe.7", "bbox": [233, 288, 261, 320]}, {"id": "shoe.8", "bbox": [218, 283, 265, 315]}, {"id": "window.9", "bbox": [73, 75, 189, 188]}, {"id": "woman.10", "bbox": [92, 172, 191, 340]}, {"id": "pant.11", "bbox": [194, 230, 249, 306]}, {"id": "sign.12", "bbox": [19, 84, 49, 121]}, {"id": "man.13", "bbox": [387, 27, 514, 368]}, {"id": "book.14", "bbox": [475, 76, 533, 122]}, {"id": "person.15", "bbox": [100, 172, 189, 337]}, {"id": "hat.16", "bbox": [105, 165, 152, 194]}, {"id": "person.17", "bbox": [100, 166, 187, 272]}]	[{"subject": "person.1", "predicate": "sitting on", "object": "train.2"}, {"subject": "man.3", "predicate": "sitting on", "object": "train.2"}, {"subject": "person.4", "predicate": "sitting on", "object": "train.2"}, {"subject": "person.1", "predicate": "sitting on", "object": "train.2"}, {"subject": "man.3", "predicate": "sitting on", "object": "train.2"}, {"subject": "person.6", "predicate": "sitting on", "object": "train.2"}, {"subject": "person.4", "predicate": "sitting on", "object": "train.2"}, {"subject": "window.9", "predicate": "behind", "object": "woman.10"}, {"subject": "man.3", "predicate": "wearing", "object": "pant.11"}, {"subject": "person.15", "predicate": "wearing", "object": "hat.16"}, {"subject": "person.17", "predicate": "wearing", "object": "hat.16"}]
87	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tree.1", "bbox": [0, 0, 799, 344]}, {"id": "rock.2", "bbox": [372, 296, 796, 382]}, {"id": "rock.3", "bbox": [143, 342, 413, 375]}, {"id": "man.4", "bbox": [274, 308, 315, 375]}, {"id": "man.5", "bbox": [90, 285, 115, 328]}]	[{"subject": "man.4", "predicate": "sitting on", "object": "rock.3"}]
88	Generate a structured scene graph for an image of size (512 x 340) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (512 x 340) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "lamp.1", "bbox": [252, 119, 283, 170]}, {"id": "table.2", "bbox": [224, 154, 303, 246]}, {"id": "pillow.3", "bbox": [54, 217, 108, 267]}, {"id": "chair.4", "bbox": [28, 186, 163, 337]}, {"id": "shelf.5", "bbox": [121, 0, 189, 198]}, {"id": "shelf.6", "bbox": [141, 91, 178, 104]}, {"id": "shelf.7", "bbox": [142, 67, 172, 84]}, {"id": "shelf.8", "bbox": [131, 11, 170, 27]}, {"id": "window.9", "bbox": [199, 0, 301, 174]}, {"id": "chair.10", "bbox": [132, 159, 238, 260]}, {"id": "window.11", "bbox": [194, 4, 309, 187]}, {"id": "pillow.12", "bbox": [263, 151, 398, 212]}, {"id": "book.13", "bbox": [134, 7, 177, 159]}, {"id": "lamp.14", "bbox": [255, 114, 286, 181]}]	[{"subject": "pillow.3", "predicate": "on", "object": "chair.4"}, {"subject": "window.9", "predicate": "on", "object": "window.11"}, {"subject": "pillow.3", "predicate": "on", "object": "chair.4"}, {"subject": "table.2", "predicate": "in front of", "object": "window.11"}]
89	Generate a structured scene graph for an image of size (800 x 533) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 533) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "chair.1", "bbox": [0, 362, 395, 531]}, {"id": "table.2", "bbox": [0, 204, 200, 346]}, {"id": "lamp.3", "bbox": [339, 50, 441, 310]}, {"id": "door.4", "bbox": [73, 217, 200, 327]}, {"id": "flower.5", "bbox": [227, 104, 305, 225]}, {"id": "door.6", "bbox": [0, 239, 78, 345]}, {"id": "vase.7", "bbox": [255, 176, 294, 228]}, {"id": "leg.8", "bbox": [443, 263, 477, 361]}, {"id": "shelf.9", "bbox": [220, 282, 326, 324]}, {"id": "lamp.10", "bbox": [0, 142, 44, 240]}, {"id": "shelf.11", "bbox": [220, 242, 323, 277]}, {"id": "shelf.12", "bbox": [229, 214, 304, 236]}, {"id": "lamp.13", "bbox": [20, 235, 107, 356]}, {"id": "flower.14", "bbox": [234, 126, 337, 192]}, {"id": "table.15", "bbox": [221, 211, 328, 316]}]	[{"subject": "flower.14", "predicate": "in", "object": "vase.7"}, {"subject": "flower.5", "predicate": "in", "object": "vase.7"}, {"subject": "lamp.10", "predicate": "on", "object": "table.2"}, {"subject": "shelf.12", "predicate": "on", "object": "table.15"}, {"subject": "shelf.11", "predicate": "on", "object": "table.15"}, {"subject": "shelf.9", "predicate": "on", "object": "table.15"}, {"subject": "lamp.10", "predicate": "on", "object": "table.2"}, {"subject": "door.4", "predicate": "on", "object": "table.2"}, {"subject": "door.6", "predicate": "on", "object": "table.2"}, {"subject": "flower.5", "predicate": "on", "object": "table.15"}]
90	Generate a structured scene graph for an image of size (800 x 534) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 534) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [360, 327, 640, 475]}, {"id": "shelf.2", "bbox": [358, 369, 638, 468]}, {"id": "stand.3", "bbox": [622, 329, 756, 414]}, {"id": "table.4", "bbox": [211, 216, 346, 267]}, {"id": "cabinet.5", "bbox": [143, 199, 232, 271]}, {"id": "window.6", "bbox": [140, 110, 211, 184]}, {"id": "light.7", "bbox": [254, 50, 306, 167]}, {"id": "chair.8", "bbox": [282, 212, 335, 264]}, {"id": "cabinet.9", "bbox": [202, 112, 267, 153]}, {"id": "sink.10", "bbox": [145, 179, 209, 214]}, {"id": "window.11", "bbox": [129, 135, 202, 187]}, {"id": "sink.12", "bbox": [143, 194, 212, 213]}]	[{"subject": "cabinet.5", "predicate": "under", "object": "sink.10"}, {"subject": "chair.8", "predicate": "at", "object": "table.4"}, {"subject": "window.6", "predicate": "above", "object": "sink.12"}]
93	Generate a structured scene graph for an image of size (335 x 500) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (335 x 500) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 103, 333, 487]}, {"id": "plate.2", "bbox": [48, 279, 251, 403]}, {"id": "glass.3", "bbox": [44, 153, 91, 281]}, {"id": "glass.4", "bbox": [194, 144, 228, 271]}, {"id": "glass.5", "bbox": [19, 204, 61, 294]}, {"id": "glass.6", "bbox": [0, 128, 32, 243]}, {"id": "glass.7", "bbox": [239, 197, 281, 285]}, {"id": "glass.8", "bbox": [293, 110, 318, 176]}, {"id": "glass.9", "bbox": [185, 68, 207, 154]}, {"id": "glass.10", "bbox": [100, 72, 120, 140]}, {"id": "glass.11", "bbox": [298, 174, 333, 234]}, {"id": "glass.12", "bbox": [6, 89, 32, 141]}, {"id": "glass.13", "bbox": [310, 109, 333, 183]}, {"id": "glass.14", "bbox": [270, 80, 294, 175]}, {"id": "glass.15", "bbox": [25, 129, 54, 176]}, {"id": "glass.16", "bbox": [204, 92, 229, 139]}, {"id": "glass.17", "bbox": [121, 109, 145, 153]}, {"id": "glass.18", "bbox": [217, 112, 244, 157]}]	[{"subject": "glass.7", "predicate": "on", "object": "table.1"}, {"subject": "glass.4", "predicate": "on", "object": "table.1"}, {"subject": "glass.10", "predicate": "on", "object": "table.1"}, {"subject": "glass.16", "predicate": "on", "object": "table.1"}, {"subject": "glass.18", "predicate": "on", "object": "table.1"}, {"subject": "glass.14", "predicate": "on", "object": "table.1"}, {"subject": "glass.17", "predicate": "on", "object": "table.1"}, {"subject": "glass.8", "predicate": "on", "object": "table.1"}, {"subject": "glass.13", "predicate": "on", "object": "table.1"}, {"subject": "glass.15", "predicate": "on", "object": "table.1"}, {"subject": "glass.12", "predicate": "on", "object": "table.1"}, {"subject": "glass.9", "predicate": "on", "object": "table.1"}, {"subject": "glass.11", "predicate": "on", "object": "table.1"}, {"subject": "glass.6", "predicate": "on", "object": "table.1"}, {"subject": "glass.3", "predicate": "on", "object": "table.1"}, {"subject": "glass.17", "predicate": "on", "object": "table.1"}, {"subject": "glass.5", "predicate": "on", "object": "table.1"}, {"subject": "glass.8", "predicate": "on", "object": "table.1"}, {"subject": "glass.15", "predicate": "on", "object": "table.1"}, {"subject": "glass.7", "predicate": "on", "object": "table.1"}, {"subject": "plate.2", "predicate": "on", "object": "table.1"}, {"subject": "glass.17", "predicate": "on", "object": "table.1"}, {"subject": "glass.10", "predicate": "on", "object": "table.1"}, {"subject": "glass.7", "predicate": "on", "object": "table.1"}]
94	Generate a structured scene graph for an image of size (500 x 375) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (500 x 375) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 0, 444, 374]}, {"id": "plate.2", "bbox": [76, 16, 434, 363]}, {"id": "glass.3", "bbox": [392, 0, 498, 145]}, {"id": "fruit.4", "bbox": [151, 73, 269, 157]}, {"id": "tail.5", "bbox": [311, 117, 343, 143]}, {"id": "orange.6", "bbox": [200, 95, 262, 142]}]	[{"subject": "fruit.4", "predicate": "on", "object": "plate.2"}, {"subject": "plate.2", "predicate": "on", "object": "table.1"}, {"subject": "orange.6", "predicate": "on", "object": "plate.2"}]
95	Generate a structured scene graph for an image of size (359 x 500) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (359 x 500) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 0, 358, 498]}, {"id": "plate.2", "bbox": [51, 209, 347, 489]}, {"id": "glass.3", "bbox": [102, 15, 193, 189]}, {"id": "glass.4", "bbox": [174, 25, 261, 176]}, {"id": "glass.5", "bbox": [260, 93, 343, 211]}, {"id": "glass.6", "bbox": [42, 34, 104, 191]}, {"id": "fork.7", "bbox": [88, 187, 237, 226]}, {"id": "building.8", "bbox": [239, 85, 279, 129]}]	[{"subject": "glass.5", "predicate": "on", "object": "table.1"}, {"subject": "glass.3", "predicate": "on", "object": "table.1"}, {"subject": "glass.6", "predicate": "on", "object": "table.1"}]
96	Generate a structured scene graph for an image of size (375 x 500) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (375 x 500) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 323, 374, 496]}, {"id": "chair.2", "bbox": [57, 183, 212, 348]}, {"id": "plate.3", "bbox": [41, 395, 210, 471]}, {"id": "cup.4", "bbox": [135, 338, 174, 389]}, {"id": "fork.5", "bbox": [220, 401, 284, 454]}, {"id": "handle.6", "bbox": [214, 352, 236, 383]}]	[{"subject": "chair.2", "predicate": "near", "object": "table.1"}]
97	Generate a structured scene graph for an image of size (448 x 336) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (448 x 336) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 0, 447, 335]}, {"id": "bag.2", "bbox": [61, 11, 235, 198]}, {"id": "bag.3", "bbox": [143, 0, 211, 117]}, {"id": "handle.4", "bbox": [379, 267, 400, 330]}]	[{"subject": "bag.3", "predicate": "on", "object": "table.1"}]
98	Generate a structured scene graph for an image of size (500 x 375) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (500 x 375) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "plate.1", "bbox": [0, 163, 230, 320]}, {"id": "cup.2", "bbox": [98, 25, 162, 145]}, {"id": "fork.3", "bbox": [205, 168, 279, 301]}, {"id": "table.4", "bbox": [0, 0, 499, 373]}, {"id": "glass.5", "bbox": [139, 0, 180, 70]}]	[{"subject": "fork.3", "predicate": "near", "object": "plate.1"}]
101	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tree.1", "bbox": [380, 0, 797, 362]}, {"id": "street.2", "bbox": [125, 412, 679, 551]}, {"id": "tree.3", "bbox": [105, 262, 164, 360]}, {"id": "tree.4", "bbox": [29, 258, 103, 353]}, {"id": "tree.5", "bbox": [0, 229, 97, 359]}, {"id": "tree.6", "bbox": [700, 0, 799, 360]}, {"id": "car.7", "bbox": [149, 308, 462, 457]}, {"id": "tree.8", "bbox": [361, 182, 406, 331]}, {"id": "car.9", "bbox": [0, 342, 105, 439]}, {"id": "branch.10", "bbox": [571, 117, 646, 291]}, {"id": "leaf.11", "bbox": [0, 0, 86, 49]}, {"id": "trunk.12", "bbox": [586, 278, 621, 363]}, {"id": "leaf.13", "bbox": [115, 124, 236, 206]}, {"id": "leaf.14", "bbox": [300, 232, 344, 281]}, {"id": "leaf.15", "bbox": [219, 247, 282, 322]}, {"id": "leaf.16", "bbox": [86, 158, 157, 217]}, {"id": "trunk.17", "bbox": [183, 293, 211, 360]}, {"id": "boat.18", "bbox": [262, 310, 394, 335]}, {"id": "sign.19", "bbox": [489, 285, 514, 353]}, {"id": "windshield.20", "bbox": [36, 351, 93, 375]}, {"id": "leaf.21", "bbox": [104, 219, 146, 253]}, {"id": "leaf.22", "bbox": [288, 208, 394, 258]}, {"id": "tree.23", "bbox": [241, 160, 450, 270]}, {"id": "tree.24", "bbox": [197, 169, 432, 297]}, {"id": "leaf.25", "bbox": [72, 259, 107, 325]}, {"id": "leaf.26", "bbox": [18, 223, 75, 278]}]	[{"subject": "leaf.22", "predicate": "on", "object": "tree.23"}, {"subject": "leaf.14", "predicate": "on", "object": "tree.8"}, {"subject": "leaf.11", "predicate": "on", "object": "tree.1"}, {"subject": "leaf.15", "predicate": "on", "object": "tree.1"}, {"subject": "leaf.21", "predicate": "on", "object": "tree.3"}, {"subject": "leaf.25", "predicate": "on", "object": "tree.3"}, {"subject": "leaf.26", "predicate": "on", "object": "tree.4"}, {"subject": "leaf.13", "predicate": "on", "object": "tree.6"}, {"subject": "tree.5", "predicate": "has", "object": "leaf.16"}]
102	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 800, 451]}, {"id": "car.2", "bbox": [229, 347, 735, 534]}, {"id": "street.3", "bbox": [0, 487, 798, 594]}, {"id": "window.4", "bbox": [532, 171, 615, 324]}, {"id": "door.5", "bbox": [355, 211, 433, 353]}, {"id": "window.6", "bbox": [722, 182, 793, 312]}, {"id": "window.7", "bbox": [197, 193, 263, 318]}, {"id": "tire.8", "bbox": [278, 462, 363, 539]}, {"id": "tire.9", "bbox": [583, 464, 657, 534]}, {"id": "window.10", "bbox": [718, 0, 784, 71]}, {"id": "window.11", "bbox": [30, 30, 87, 97]}, {"id": "window.12", "bbox": [208, 22, 261, 72]}, {"id": "window.13", "bbox": [411, 378, 507, 433]}, {"id": "wheel.14", "bbox": [293, 469, 353, 529]}]	[{"subject": "window.6", "predicate": "on", "object": "building.1"}, {"subject": "window.4", "predicate": "on", "object": "building.1"}, {"subject": "window.7", "predicate": "on", "object": "building.1"}, {"subject": "door.5", "predicate": "on", "object": "building.1"}, {"subject": "window.10", "predicate": "on", "object": "building.1"}, {"subject": "wheel.14", "predicate": "on", "object": "car.2"}, {"subject": "wheel.14", "predicate": "on", "object": "car.2"}, {"subject": "window.13", "predicate": "on", "object": "car.2"}, {"subject": "window.11", "predicate": "on", "object": "car.2"}, {"subject": "tire.8", "predicate": "on", "object": "car.2"}, {"subject": "tire.8", "predicate": "on", "object": "car.2"}, {"subject": "window.13", "predicate": "on", "object": "car.2"}]
103	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "tree.1", "bbox": [0, 0, 391, 471]}, {"id": "window.2", "bbox": [232, 278, 287, 339]}, {"id": "building.3", "bbox": [94, 176, 440, 420]}, {"id": "building.4", "bbox": [0, 100, 111, 436]}, {"id": "tree.5", "bbox": [621, 196, 771, 409]}, {"id": "car.6", "bbox": [688, 364, 794, 539]}, {"id": "sidewalk.7", "bbox": [292, 402, 483, 469]}, {"id": "window.8", "bbox": [318, 176, 363, 232]}, {"id": "window.9", "bbox": [311, 280, 355, 340]}, {"id": "window.10", "bbox": [368, 294, 403, 349]}, {"id": "window.11", "bbox": [165, 285, 192, 340]}, {"id": "car.12", "bbox": [515, 367, 620, 437]}, {"id": "vehicle.13", "bbox": [517, 365, 620, 435]}]	[{"subject": "window.11", "predicate": "on", "object": "building.3"}, {"subject": "window.9", "predicate": "on", "object": "building.3"}, {"subject": "window.8", "predicate": "on", "object": "building.3"}]
104	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "car.1", "bbox": [0, 88, 798, 502]}, {"id": "light.2", "bbox": [0, 1, 668, 81]}, {"id": "window.3", "bbox": [150, 160, 448, 262]}, {"id": "light.4", "bbox": [65, 284, 324, 364]}, {"id": "tire.5", "bbox": [364, 360, 471, 501]}, {"id": "box.6", "bbox": [42, 54, 203, 128]}, {"id": "window.7", "bbox": [491, 169, 617, 246]}, {"id": "window.8", "bbox": [44, 132, 167, 209]}, {"id": "tire.9", "bbox": [2, 257, 67, 374]}, {"id": "window.10", "bbox": [143, 130, 260, 199]}, {"id": "window.11", "bbox": [433, 173, 522, 260]}, {"id": "roof.12", "bbox": [0, 125, 199, 143]}, {"id": "car.13", "bbox": [739, 111, 798, 173]}, {"id": "door.14", "bbox": [651, 82, 688, 163]}, {"id": "tire.15", "bbox": [650, 267, 695, 355]}, {"id": "plate.16", "bbox": [102, 378, 155, 433]}, {"id": "building.17", "bbox": [265, 36, 315, 95]}, {"id": "window.18", "bbox": [233, 96, 308, 130]}, {"id": "window.19", "bbox": [307, 100, 348, 138]}, {"id": "window.20", "bbox": [350, 96, 389, 131]}, {"id": "window.21", "bbox": [384, 96, 421, 131]}]	[{"subject": "car.1", "predicate": "has", "object": "window.10"}, {"subject": "car.1", "predicate": "has", "object": "window.8"}, {"subject": "car.1", "predicate": "has", "object": "tire.9"}, {"subject": "car.1", "predicate": "has", "object": "window.8"}, {"subject": "car.1", "predicate": "has", "object": "window.10"}, {"subject": "car.1", "predicate": "has", "object": "roof.12"}]
105	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [0, 216, 798, 596]}, {"id": "building.2", "bbox": [660, 0, 794, 600]}, {"id": "man.3", "bbox": [539, 146, 660, 462]}, {"id": "car.4", "bbox": [325, 160, 522, 317]}, {"id": "coat.5", "bbox": [539, 173, 660, 315]}, {"id": "car.6", "bbox": [0, 89, 66, 336]}, {"id": "jean.7", "bbox": [572, 308, 636, 449]}, {"id": "truck.8", "bbox": [365, 97, 500, 164]}, {"id": "car.9", "bbox": [0, 155, 92, 253]}, {"id": "vehicle.10", "bbox": [46, 155, 128, 244]}, {"id": "vehicle.11", "bbox": [101, 145, 192, 234]}, {"id": "pole.12", "bbox": [498, 0, 515, 198]}, {"id": "car.13", "bbox": [180, 160, 257, 224]}, {"id": "car.14", "bbox": [224, 157, 290, 219]}, {"id": "vehicle.15", "bbox": [264, 154, 311, 211]}, {"id": "car.16", "bbox": [116, 151, 194, 232]}, {"id": "vehicle.17", "bbox": [317, 157, 510, 307]}, {"id": "vehicle.18", "bbox": [7, 152, 95, 250]}]	[{"subject": "car.4", "predicate": "on", "object": "street.1"}, {"subject": "car.16", "predicate": "on", "object": "street.1"}, {"subject": "car.13", "predicate": "on", "object": "street.1"}, {"subject": "car.9", "predicate": "on", "object": "street.1"}, {"subject": "car.14", "predicate": "on", "object": "street.1"}, {"subject": "truck.8", "predicate": "on", "object": "street.1"}, {"subject": "car.6", "predicate": "on", "object": "street.1"}, {"subject": "vehicle.15", "predicate": "on", "object": "street.1"}, {"subject": "car.13", "predicate": "on", "object": "street.1"}, {"subject": "car.4", "predicate": "on", "object": "street.1"}, {"subject": "truck.8", "predicate": "parked on", "object": "street.1"}, {"subject": "vehicle.17", "predicate": "parked on", "object": "street.1"}, {"subject": "car.13", "predicate": "above", "object": "street.1"}, {"subject": "car.16", "predicate": "above", "object": "street.1"}, {"subject": "car.9", "predicate": "above", "object": "street.1"}, {"subject": "car.4", "predicate": "above", "object": "street.1"}, {"subject": "car.14", "predicate": "above", "object": "street.1"}, {"subject": "vehicle.18", "predicate": "parked on", "object": "street.1"}, {"subject": "vehicle.10", "predicate": "parked on", "object": "street.1"}, {"subject": "vehicle.11", "predicate": "parked on", "object": "street.1"}, {"subject": "car.13", "predicate": "parked on", "object": "street.1"}, {"subject": "vehicle.15", "predicate": "parked on", "object": "street.1"}, {"subject": "man.3", "predicate": "walking on", "object": "street.1"}, {"subject": "man.3", "predicate": "has", "object": "coat.5"}, {"subject": "car.16", "predicate": "above", "object": "street.1"}, {"subject": "car.9", "predicate": "above", "object": "street.1"}, {"subject": "car.4", "predicate": "above", "object": "street.1"}, {"subject": "car.14", "predicate": "above", "object": "street.1"}, {"subject": "car.13", "predicate": "above", "object": "street.1"}, {"subject": "building.2", "predicate": "near", "object": "street.1"}, {"subject": "man.3", "predicate": "wearing", "object": "coat.5"}, {"subject": "pole.12", "predicate": "near", "object": "truck.8"}, {"subject": "car.4", "predicate": "above", "object": "street.1"}, {"subject": "car.14", "predicate": "above", "object": "street.1"}, {"subject": "car.13", "predicate": "above", "object": "street.1"}, {"subject": "car.16", "predicate": "above", "object": "street.1"}, {"subject": "car.9", "predicate": "above", "object": "street.1"}]
106	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [75, 8, 792, 356]}, {"id": "window.2", "bbox": [407, 28, 490, 160]}, {"id": "man.3", "bbox": [450, 289, 569, 478]}, {"id": "truck.4", "bbox": [603, 162, 797, 374]}, {"id": "tree.5", "bbox": [328, 4, 798, 317]}, {"id": "branch.6", "bbox": [314, 17, 792, 147]}, {"id": "sign.7", "bbox": [672, 457, 749, 592]}, {"id": "man.8", "bbox": [221, 303, 300, 521]}, {"id": "sidewalk.9", "bbox": [56, 353, 382, 478]}]	[{"subject": "building.1", "predicate": "has", "object": "window.2"}, {"subject": "tree.5", "predicate": "has", "object": "branch.6"}, {"subject": "window.2", "predicate": "on", "object": "building.1"}, {"subject": "man.8", "predicate": "on", "object": "sidewalk.9"}, {"subject": "man.8", "predicate": "on", "object": "sidewalk.9"}]
107	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [7, 214, 794, 596]}, {"id": "chair.2", "bbox": [394, 306, 724, 596]}, {"id": "box.3", "bbox": [0, 211, 162, 316]}, {"id": "paper.4", "bbox": [478, 237, 672, 296]}, {"id": "chair.5", "bbox": [387, 46, 444, 165]}, {"id": "box.6", "bbox": [310, 415, 402, 461]}, {"id": "leg.7", "bbox": [428, 547, 519, 596]}, {"id": "book.8", "bbox": [750, 253, 798, 303]}]	[{"subject": "box.6", "predicate": "under", "object": "table.1"}, {"subject": "chair.2", "predicate": "has", "object": "leg.7"}, {"subject": "chair.2", "predicate": "has", "object": "leg.7"}, {"subject": "paper.4", "predicate": "on", "object": "table.1"}, {"subject": "book.8", "predicate": "on", "object": "table.1"}]
108	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [0, 326, 796, 596]}, {"id": "tree.2", "bbox": [141, 15, 533, 342]}, {"id": "tree.3", "bbox": [505, 33, 675, 315]}, {"id": "building.4", "bbox": [0, 0, 106, 342]}, {"id": "tree.5", "bbox": [660, 17, 798, 341]}, {"id": "building.6", "bbox": [613, 0, 797, 98]}, {"id": "street.7", "bbox": [0, 322, 228, 395]}, {"id": "car.8", "bbox": [607, 321, 774, 382]}, {"id": "window.9", "bbox": [29, 151, 48, 210]}, {"id": "pole.10", "bbox": [355, 0, 378, 355]}, {"id": "truck.11", "bbox": [485, 285, 548, 353]}, {"id": "sidewalk.12", "bbox": [0, 333, 135, 350]}, {"id": "door.13", "bbox": [685, 321, 754, 371]}, {"id": "car.14", "bbox": [560, 315, 612, 354]}, {"id": "person.15", "bbox": [35, 298, 63, 346]}, {"id": "person.16", "bbox": [155, 300, 182, 350]}, {"id": "bike.17", "bbox": [319, 317, 353, 356]}, {"id": "people.18", "bbox": [158, 303, 186, 352]}, {"id": "tree.19", "bbox": [389, 56, 552, 262]}]	[{"subject": "door.13", "predicate": "on", "object": "car.8"}, {"subject": "door.13", "predicate": "on", "object": "car.8"}, {"subject": "tree.2", "predicate": "on", "object": "street.1"}, {"subject": "person.15", "predicate": "on", "object": "sidewalk.12"}, {"subject": "car.14", "predicate": "on", "object": "street.1"}, {"subject": "car.8", "predicate": "with", "object": "door.13"}, {"subject": "tree.5", "predicate": "behind", "object": "building.6"}, {"subject": "tree.19", "predicate": "behind", "object": "building.6"}, {"subject": "tree.3", "predicate": "behind", "object": "building.6"}, {"subject": "person.15", "predicate": "across", "object": "street.1"}, {"subject": "building.4", "predicate": "on", "object": "street.1"}, {"subject": "car.14", "predicate": "near", "object": "truck.11"}, {"subject": "building.4", "predicate": "with", "object": "window.9"}]
109	Generate a structured scene graph for an image of size (640 x 480) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (640 x 480) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "building.1", "bbox": [0, 0, 229, 301]}, {"id": "street.2", "bbox": [0, 275, 639, 478]}, {"id": "building.3", "bbox": [226, 0, 401, 288]}, {"id": "building.4", "bbox": [401, 0, 498, 275]}, {"id": "building.5", "bbox": [494, 0, 637, 295]}, {"id": "car.6", "bbox": [368, 257, 543, 320]}, {"id": "man.7", "bbox": [186, 230, 256, 337]}, {"id": "window.8", "bbox": [132, 77, 160, 135]}, {"id": "window.9", "bbox": [66, 70, 96, 136]}, {"id": "window.10", "bbox": [178, 78, 202, 137]}, {"id": "window.11", "bbox": [245, 20, 268, 73]}, {"id": "building.12", "bbox": [121, 0, 249, 252]}]	[{"subject": "building.1", "predicate": "on", "object": "street.2"}, {"subject": "window.9", "predicate": "of", "object": "building.3"}, {"subject": "window.8", "predicate": "of", "object": "building.4"}, {"subject": "window.10", "predicate": "of", "object": "building.12"}, {"subject": "window.11", "predicate": "of", "object": "building.5"}]
110	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "room.1", "bbox": [0, 0, 799, 598]}, {"id": "table.2", "bbox": [62, 273, 582, 592]}, {"id": "window.3", "bbox": [316, 18, 728, 239]}, {"id": "chair.4", "bbox": [500, 292, 700, 586]}, {"id": "chair.5", "bbox": [550, 407, 759, 600]}, {"id": "curtain.6", "bbox": [586, 33, 721, 235]}, {"id": "curtain.7", "bbox": [319, 41, 435, 214]}, {"id": "door.8", "bbox": [0, 0, 80, 331]}, {"id": "chair.9", "bbox": [151, 264, 301, 410]}, {"id": "chair.10", "bbox": [567, 225, 721, 367]}, {"id": "chair.11", "bbox": [278, 232, 375, 339]}, {"id": "chair.12", "bbox": [450, 228, 545, 283]}, {"id": "arm.13", "bbox": [592, 439, 744, 469]}]	[{"subject": "curtain.7", "predicate": "on", "object": "window.3"}, {"subject": "curtain.6", "predicate": "on", "object": "window.3"}, {"subject": "chair.12", "predicate": "on", "object": "table.2"}]
111	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "handle.1", "bbox": [654, 122, 792, 153]}, {"id": "paper.2", "bbox": [543, 10, 796, 145]}, {"id": "counter.3", "bbox": [15, 7, 784, 480]}, {"id": "handle.4", "bbox": [32, 0, 117, 112]}, {"id": "bottle.5", "bbox": [326, 5, 464, 271]}, {"id": "counter.6", "bbox": [437, 0, 782, 428]}]	[{"subject": "paper.2", "predicate": "on", "object": "counter.3"}]
112	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "table.1", "bbox": [0, 246, 780, 385]}, {"id": "chair.2", "bbox": [537, 327, 793, 594]}, {"id": "chair.3", "bbox": [61, 355, 320, 597]}, {"id": "screen.4", "bbox": [574, 143, 707, 242]}, {"id": "screen.5", "bbox": [312, 146, 444, 245]}, {"id": "screen.6", "bbox": [75, 148, 198, 242]}, {"id": "paper.7", "bbox": [354, 134, 432, 225]}, {"id": "leg.8", "bbox": [216, 535, 305, 584]}, {"id": "leg.9", "bbox": [674, 528, 784, 561]}, {"id": "leg.10", "bbox": [158, 532, 217, 596]}, {"id": "leg.11", "bbox": [544, 524, 650, 554]}, {"id": "leg.12", "bbox": [106, 534, 196, 560]}, {"id": "leg.13", "bbox": [655, 534, 683, 596]}, {"id": "seat.14", "bbox": [550, 388, 605, 461]}]	[{"subject": "seat.14", "predicate": "of", "object": "chair.2"}]
113	Generate a structured scene graph for an image of size (800 x 600) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (800 x 600) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "street.1", "bbox": [0, 350, 799, 596]}, {"id": "building.2", "bbox": [288, 0, 794, 369]}, {"id": "building.3", "bbox": [0, 0, 298, 343]}, {"id": "bike.4", "bbox": [528, 493, 797, 596]}, {"id": "pole.5", "bbox": [660, 0, 707, 600]}, {"id": "tree.6", "bbox": [0, 163, 98, 327]}, {"id": "car.7", "bbox": [352, 309, 503, 379]}, {"id": "people.8", "bbox": [583, 325, 606, 390]}, {"id": "door.9", "bbox": [462, 269, 500, 343]}, {"id": "pole.10", "bbox": [146, 257, 170, 382]}, {"id": "pole.11", "bbox": [408, 498, 429, 596]}, {"id": "window.12", "bbox": [744, 71, 781, 123]}, {"id": "person.13", "bbox": [169, 307, 206, 403]}, {"id": "window.14", "bbox": [525, 190, 573, 256]}, {"id": "window.15", "bbox": [465, 10, 496, 79]}, {"id": "window.16", "bbox": [414, 16, 444, 85]}, {"id": "person.17", "bbox": [210, 314, 240, 408]}, {"id": "window.18", "bbox": [364, 107, 391, 174]}, {"id": "window.19", "bbox": [464, 204, 502, 254]}, {"id": "person.20", "bbox": [532, 320, 554, 385]}, {"id": "people.21", "bbox": [528, 312, 610, 389]}, {"id": "railing.22", "bbox": [300, 130, 794, 180]}]	[{"subject": "building.2", "predicate": "with", "object": "window.15"}, {"subject": "building.2", "predicate": "with", "object": "window.16"}, {"subject": "building.2", "predicate": "with", "object": "window.12"}, {"subject": "building.2", "predicate": "with", "object": "window.14"}, {"subject": "building.2", "predicate": "with", "object": "window.18"}, {"subject": "railing.22", "predicate": "near", "object": "building.2"}, {"subject": "person.20", "predicate": "on", "object": "street.1"}, {"subject": "bike.4", "predicate": "on", "object": "pole.5"}, {"subject": "door.9", "predicate": "has", "object": "window.19"}, {"subject": "tree.6", "predicate": "in front of", "object": "building.3"}]
114	Generate a structured scene graph for an image of size (256 x 256) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (256 x 256) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "man.1", "bbox": [54, 8, 254, 255]}, {"id": "woman.2", "bbox": [1, 42, 117, 255]}, {"id": "shirt.3", "bbox": [107, 50, 255, 208]}, {"id": "shirt.4", "bbox": [8, 100, 93, 189]}, {"id": "jean.5", "bbox": [24, 185, 117, 255]}, {"id": "jean.6", "bbox": [164, 185, 240, 255]}, {"id": "hair.7", "bbox": [30, 41, 79, 103]}, {"id": "hair.8", "bbox": [147, 9, 194, 54]}, {"id": "bag.9", "bbox": [0, 181, 31, 256]}, {"id": "arm.10", "bbox": [80, 103, 102, 185]}, {"id": "hand.11", "bbox": [37, 173, 67, 209]}, {"id": "leaf.12", "bbox": [118, 0, 137, 12]}, {"id": "ear.13", "bbox": [171, 37, 182, 52]}]	[{"subject": "man.1", "predicate": "wearing", "object": "jean.6"}, {"subject": "woman.2", "predicate": "wearing", "object": "jean.5"}, {"subject": "man.1", "predicate": "wearing", "object": "shirt.3"}, {"subject": "woman.2", "predicate": "has", "object": "arm.10"}, {"subject": "man.1", "predicate": "has", "object": "ear.13"}, {"subject": "woman.2", "predicate": "has", "object": "hair.7"}, {"subject": "woman.2", "predicate": "has", "object": "bag.9"}, {"subject": "woman.2", "predicate": "wearing", "object": "jean.5"}, {"subject": "woman.2", "predicate": "has", "object": "hand.11"}, {"subject": "woman.2", "predicate": "has", "object": "hair.7"}, {"subject": "woman.2", "predicate": "has", "object": "bag.9"}, {"subject": "woman.2", "predicate": "has", "object": "hand.11"}, {"subject": "man.1", "predicate": "has", "object": "hair.8"}, {"subject": "woman.2", "predicate": "wearing", "object": "shirt.4"}, {"subject": "man.1", "predicate": "wearing", "object": "shirt.3"}, {"subject": "man.1", "predicate": "has", "object": "ear.13"}, {"subject": "man.1", "predicate": "wearing", "object": "jean.6"}, {"subject": "woman.2", "predicate": "wearing", "object": "jean.5"}, {"subject": "woman.2", "predicate": "has", "object": "hair.7"}, {"subject": "man.1", "predicate": "wearing", "object": "shirt.3"}, {"subject": "man.1", "predicate": "has", "object": "hair.8"}]
115	Generate a structured scene graph for an image of size (256 x 256) using the following format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign a unique ID for each object using the format `"object_name.number"` (e.g., `"person.1"`, `"bike.2"`). - Provide its bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Represent interactions accurately using `"subject"`, `"predicate"`, and `"object"`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	Generate a structured scene graph for an image of size (256 x 256) using the specified object and relationship categories. ### Output Format: <answer> { "objects": [ {"id": "object_name.number", "bbox": [x1, y1, x2, y2]}, ... ], "relationships": [ {"subject": "object_name.number", "predicate": "relationship_type", "object": "object_name.number"}, ... ] } </answer> ### Guidelines: - Objects: - Assign unique IDs in the format `"object_name.number"` (e.g., `"person.1"`). The object_name must belong to the predefined object set: `["airplane", "animal", "arm", "bag", "banana", "basket", "beach", "bear", "bed", "bench", "bike", "bird", "board", "boat", "book", "boot", "bottle", "bowl", "box", "boy", "branch", "building", "bus", "cabinet", "cap", "car", "cat", "chair", "child", "clock", "coat", "counter", "cow", "cup", "curtain", "desk", "dog", "door", "drawer", "ear", "elephant", "engine", "eye", "face", "fence", "finger", "flag", "flower", "food", "fork", "fruit", "giraffe", "girl", "glass", "glove", "guy", "hair", "hand", "handle", "hat", "head", "helmet", "hill", "horse", "house", "jacket", "jean", "kid", "kite", "lady", "lamp", "laptop", "leaf", "leg", "letter", "light", "logo", "man", "men", "motorcycle", "mountain", "mouth", "neck", "nose", "number", "orange", "pant", "paper", "paw", "people", "person", "phone", "pillow", "pizza", "plane", "plant", "plate", "player", "pole", "post", "pot", "racket", "railing", "rock", "roof", "room", "screen", "seat", "sheep", "shelf", "shirt", "shoe", "short", "sidewalk", "sign", "sink", "skateboard", "ski", "skier", "sneaker", "snow", "sock", "stand", "street", "surfboard", "table", "tail", "tie", "tile", "tire", "toilet", "towel", "tower", "track", "train", "tree", "truck", "trunk", "umbrella", "vase", "vegetable", "vehicle", "wave", "wheel", "window", "windshield", "wing", "wire", "woman", "zebra"]`. - Provide a bounding box `[x1, y1, x2, y2]` in integer pixel format. - Include all visible objects, even if they have no relationships. - Relationships: - Define relationships using `"subject"`, `"predicate"`, and `"object"`. - The predicate must belong to the predefined relationship set: `["above", "across", "against", "along", "and", "at", "attached to", "behind", "belonging to", "between", "carrying", "covered in", "covering", "eating", "flying in", "for", "from", "growing on", "hanging from", "has", "holding", "in", "in front of", "laying on", "looking at", "lying on", "made of", "mounted on", "near", "of", "on", "on back of", "over", "painted on", "parked on", "part of", "playing", "riding", "says", "sitting on", "standing on", "to", "under", "using", "walking in", "walking on", "watching", "wearing", "wears", "with"]`. - Omit relationships for orphan objects. ### Example Output: <answer> { "objects": [ {"id": "person.1", "bbox": [120, 200, 350, 700]}, {"id": "bike.2", "bbox": [100, 600, 400, 800]}, {"id": "helmet.3", "bbox": [150, 150, 280, 240]}, {"id": "tree.4", "bbox": [500, 100, 750, 700]} ], "relationships": [ {"subject": "person.1", "predicate": "riding", "object": "bike.2"}, {"subject": "person.1", "predicate": "wearing", "object": "helmet.3"} ] } </answer> Now, generate the complete scene graph for the provided image:	[{"id": "people.1", "bbox": [0, 15, 208, 224]}, {"id": "man.2", "bbox": [0, 26, 119, 223]}, {"id": "pant.3", "bbox": [0, 129, 119, 225]}, {"id": "woman.4", "bbox": [133, 14, 206, 170]}, {"id": "table.5", "bbox": [20, 171, 190, 202]}, {"id": "shirt.6", "bbox": [2, 72, 100, 151]}, {"id": "tie.7", "bbox": [35, 78, 54, 135]}, {"id": "hand.8", "bbox": [41, 131, 71, 157]}]	[{"subject": "man.2", "predicate": "has", "object": "tie.7"}, {"subject": "man.2", "predicate": "wearing", "object": "shirt.6"}, {"subject": "man.2", "predicate": "wearing", "object": "pant.3"}, {"subject": "man.2", "predicate": "wearing", "object": "tie.7"}, {"subject": "man.2", "predicate": "wearing", "object": "shirt.6"}]

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