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mhurhangee
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patent-ind-claim-en

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A wall outlet, comprising a panel , and a bottom cover which is provided behind the panel ; wherein the panel provides a power slot and two USB charging sockets ; an accommodating space formed by the panel and the bottom cover provides a USB charging device, a live wire metallic strip , a null wire metallic strip and an earth wire metallic strip ; the USB charging device further comprises two USB ports , and a USB charging circuit board which is connected to the USB ports ; the two USB ports correspond to the two USB charging sockets in terms of location, respectively; the power slot provides through-holes respectively which are corresponding to the live wire metallic strip , the null wire metallic strip and the earth wire metallic strip in terms of location and shape; characterised in that the center of the power slot deviates from the center of the panel by 2-5 mm towards the lower end such that the live wire metallic strip , the null wire metallic strip and the earth wire metallic strip are all moved downwards; the two USB charging sockets are provided inclined at two upper corners of the panel respectively, a USB bracket is provided on top of the earth wire metallic strip , appearing in "II" shape overall, and a step is provided at the contact part of the earth wire metallic strip and the USB bracket to make them adapt to each other; the USB charging circuit board comprises a first circuit board and a second circuit board , which are connected to each other, two first circuit boards are provided to connect to the two USB ports respectively, and are inclined at the two ends of the upper part of the USB bracket , the second circuit board provides a transformer , wherein the second circuit board and the transformer are located at the upper part of the live wire metallic strip and the null wire metallic strip ; contact position between external power and the live wire metallic strip is provided in the backside; and the USB charging socket is provided above the power slot . <EOS>
A horological component comprising a first opening intended to receive a member when the latter is driven into the first opening, the component comprising an axis (A1; 1A1) centered in the first opening and at least two structures (10; 110) intended to receive the member, each receiving structure comprising: - a receiving element (4b; 14b) intended to come into contact with the member and extending at least substantially orthoradially relative to the axis (A1; 1A1), - a first connecting element (4c; 14c) extending at least substantially radially relative to the axis (A1; 1A1) from a first end of the receiving element, - a second connecting element (4d; 14d) extending at least substantially radially relative to the axis (A1; 1A1) from a second end of the receiving element, - a first elastically deformable element (4a; 14a) extending at least substantially orthoradially relative to the axis (A1; 1A1), and - a second elastically deformable element (4a'; 14a') extending at least substantially orthoradially relative to the axis (A1; 1A1), the first connecting element mechanically connecting the first end of the receiving element to the first elastically deformable element and the second connecting element mechanically connecting the second end of the receiving element to the second elastically deformable element, characterized in that a same elastically deformable element constitutes the first elastically deformable element and the second elastically deformable element of two adjacent receiving structures. - a receiving element (4b; 14b) intended to come into contact with the member and extending at least substantially orthoradially relative to the axis (A1; 1A1), - a first connecting element (4c; 14c) extending at least substantially radially relative to the axis (A1; 1A1) from a first end of the receiving element, - a second connecting element (4d; 14d) extending at least substantially radially relative to the axis (A1; 1A1) from a second end of the receiving element, - a first elastically deformable element (4a; 14a) extending at least substantially orthoradially relative to the axis (A1; 1A1), and - a second elastically deformable element (4a'; 14a') extending at least substantially orthoradially relative to the axis (A1; 1A1), <EOS>
A power machine , comprising: a machine frame ; first (305-1) and second (305-2) track frames each positioned on different sides of the machine frame; first (340-1) and second (340-2) front mounting structures each mounting one of the first and second track frames to the machine frame, each of the first and second front mounting structures comprising: a front torsion shaft coupled to the machine frame; a front arm coupled to the front torsion shaft, the front arm oriented to extend forward and upward from the front torsion shaft ; and a front axle coupled between the front arm and the corresponding first or second track frame (305-1; 350-2); and first (350-1) and second (350-2) rear mounting structures each mounting one of the first and second track frames to the machine frame rearward of the front mounting structures, each of the first and second rear mounting structures comprising: a rear torsion shaft coupled to the machine frame; a rear arm coupled to the rear torsion shaft; a rear axle coupled to the rear arm ; a link coupled to the rear axle ; and a pin coupled between the link and the corresponding first or second track frame. a machine frame ; first (305-1) and second (305-2) track frames each positioned on different sides of the machine frame; first (340-1) and second (340-2) front mounting structures each mounting one of the first and second track frames to the machine frame, each of the first and second front mounting structures comprising: a front torsion shaft coupled to the machine frame; a front arm coupled to the front torsion shaft, the front arm oriented to extend forward and upward from the front torsion shaft ; and a front axle coupled between the front arm and the corresponding first or second track frame (305-1; 350-2); and a front torsion shaft coupled to the machine frame; a front arm coupled to the front torsion shaft, the front arm oriented to extend forward and upward from the front torsion shaft ; and a front axle coupled between the front arm and the corresponding first or second track frame (305-1; 350-2); and first (350-1) and second (350-2) rear mounting structures each mounting one of the first and second track frames to the machine frame rearward of the front mounting structures, each of the first and second rear mounting structures comprising: a rear torsion shaft coupled to the machine frame; a rear arm coupled to the rear torsion shaft; a rear axle coupled to the rear arm ; a link coupled to the rear axle ; and a pin coupled between the link and the corresponding first or second track frame. a rear torsion shaft coupled to the machine frame; a rear arm coupled to the rear torsion shaft; a rear axle coupled to the rear arm ; a link coupled to the rear axle ; and a pin coupled between the link and the corresponding first or second track frame. <EOS>
Method for carrying out distance measurements between the vehicles (PV1, PV2, PV3, PL) of a convoy, in which the distances (d) between the vehicles (PV1, PV2, PV3, PL) of the convoy are controlled automatically, wherein for distance measurement a UWB ranging method, corresponding to ultra-wide band ranging, is used, in which, per individual distance measurement, a message is sent to a vehicle in front or a vehicle behind (PV1, PV2, PV3, PL) which, following receipt of this message, sends an immediate response back to the first vehicle (PV1, PV2, PV3, PL), characterized in that coordination of the time sequence of the individual distance measurements between each two vehicles (PV1, PV2, PV3, PL) of the convoy is carried out such that a planned time is assigned to each individual distance measurement at which it is to take place starting from a coordination event, wherein the coordination event corresponds to the transmission of a distance measurement coordination message (SM) from a control station or a vehicle (PV1, PV2, PV3, PL) of the convoy, wherein starting time points for the individual distance measurements between the vehicles (PV1, PV2, PV3, PL) of the convoy are coordinated so that the individual distance measurements are carried out in succession, wherein the individual distance measurements are carried out starting from the rear end of the convoy towards the front or starting from the front end of the convoy towards the rear. <EOS>
Container management system with a number of containers , to which electrically readable codings characterising these are assigned, and with a number of emptying/filling stations constructed to empty a liquid from the container or feed a liquid thereto, characterised in that assigned to the emptying/filling stations are electronic reading units by means of which codings of containers are readable, data read by electronic reading units are fed to a cloud-based computer system configured for storage and evaluation of the data, and control commands for emptying and/or filling processes are generated by means of the cloud-based computer system in dependence on data transmitted by electronic reading units, wherein the control commands are issued by the cloud-based computer system to control units . <EOS>
Detection device for detecting properties of a medium or the filling level of the medium in a vessel , having - a sensor unit through which the medium flows, having at least one pressure sensor for detecting pressure values of the medium in the sensor unit and for outputting a detection signal, and - a control device which is configured to receive the detection signal of the sensor unit and to form pressure characteristic curves (K1, K2) of the determined pressure course in the sensor unit , wherein - the sensor unit can be inserted into a process system (P) in which the medium is located, and the process system (P) has at least the vessel for receiving the medium as well as a pump , which is intermittently operated, for removing the medium from the vessel , - the sensor unit can be inserted between the vessel and the pump , and wherein - the determined pressure course comprises pressure values of the medium in the sensor unit during operation of the pump and outside operation of the pump . - a sensor unit through which the medium flows, having at least one pressure sensor for detecting pressure values of the medium in the sensor unit and for outputting a detection signal, and - a control device which is configured to receive the detection signal of the sensor unit and to form pressure characteristic curves (K1, K2) of the determined pressure course in the sensor unit , wherein - the sensor unit can be inserted into a process system (P) in which the medium is located, and the process system (P) has at least the vessel for receiving the medium as well as a pump , which is intermittently operated, for removing the medium from the vessel , - the sensor unit can be inserted between the vessel and the pump , and wherein - the determined pressure course comprises pressure values of the medium in the sensor unit during operation of the pump and outside operation of the pump . <EOS>
A method for locking/unlocking a removable module in/from a fixed mounting plate having a wall for supporting said removable module that has two tenons each provided with a hole , these tenons extending out from the removable module so that they can be inserted into openings formed in the mounting plate , this method consisting, in the locking phase, in: - placing the removable module on the wall of the mounting plate , inserting the two tenons into the openings in the support wall of the mounting plate ; - activating a lever with eccentric cams toward a locked position, this lever being mounted in rotation between the openings beneath the support wall between an unlocked position and the locked position; - driving, by this rotation, two pins in opposite translational movements, each pin cooperating with an eccentric cam while being secured to an extension that extends transversely to the support wall such that the extensions pass through the holes in the tenons of the removable module perpendicularly, and - reversibly blocking the lever in the locked position; and, in the unlocking phase, in: - unblocking the lever from its locked position; - activating the reverse rotation of the lever until it is in the unlocked position so as to cause the extensions to be withdrawn from the holes via the reverse translation of the pins , and - removing the module from the mounting plate . - placing the removable module on the wall of the mounting plate , inserting the two tenons into the openings in the support wall of the mounting plate ; - activating a lever with eccentric cams toward a locked position, this lever being mounted in rotation between the openings beneath the support wall between an unlocked position and the locked position; - driving, by this rotation, two pins in opposite translational movements, each pin cooperating with an eccentric cam while being secured to an extension that extends transversely to the support wall such that the extensions pass through the holes in the tenons of the removable module perpendicularly, and - reversibly blocking the lever in the locked position; and, in the unlocking phase, in: - unblocking the lever from its locked position; - activating the reverse rotation of the lever until it is in the unlocked position so as to cause the extensions to be withdrawn from the holes via the reverse translation of the pins , and - removing the module from the mounting plate . - unblocking the lever from its locked position; - activating the reverse rotation of the lever until it is in the unlocked position so as to cause the extensions to be withdrawn from the holes via the reverse translation of the pins , and - removing the module from the mounting plate . <EOS>
An image forming apparatus comprising: a circulating member that is a part of a transport path (A) that transports a recording medium (P); a holding member that is fixed to the circulating member , configured to circulate, and configured to hold a leading end portion (P1) of the recording medium (P); an image forming section that is configured to form an image on the recording medium (P) at an image forming position in a circulation path (D) of the circulating member ; and a feeding section that is configured to feed out the recording medium (P) to a holding position where the holding member holds the leading end portion (P1) of the recording medium (P), the image forming apparatus being characterized in that : when a circulation velocity Vg is defined as a velocity at which the circulating member circulates the holding member , a transport velocity of the recording medium (P) is reduced from a first transport velocity V1, which is higher than the circulation velocity Vg, to a second transport velocity V2, which is lower than the first transport velocity V1, before the leading end portion (P1) of the recording medium (P) enters the holding position. a circulating member that is a part of a transport path (A) that transports a recording medium (P); a holding member that is fixed to the circulating member , configured to circulate, and configured to hold a leading end portion (P1) of the recording medium (P); an image forming section that is configured to form an image on the recording medium (P) at an image forming position in a circulation path (D) of the circulating member ; and a feeding section that is configured to feed out the recording medium (P) to a holding position where the holding member holds the leading end portion (P1) of the recording medium (P), the image forming apparatus being characterized in that : when a circulation velocity Vg is defined as a velocity at which the circulating member circulates the holding member , a transport velocity of the recording medium (P) is reduced from a first transport velocity V1, which is higher than the circulation velocity Vg, to a second transport velocity V2, which is lower than the first transport velocity V1, before the leading end portion (P1) of the recording medium (P) enters the holding position. <EOS>
An imaging apparatus comprising: an image sensor ; an optical system ; a controlling unit configured to change a tilt angle between the image sensor and a plane orthogonal to an optical axis of the optical system by tilting at least one of the image sensor and the optical system , and to set a plurality of areas in an image (301-1, 302-1, 701-1, 702-1) captured by the image sensor ; an evaluation value acquiring unit configured to acquire for each area a plurality of area contrast evaluation values by changing the tilt angle through the controlling unit ; an evaluation area determining unit configured to acquire, for each of the plurality of areas , an optimal area tilt angle corresponding to a maximum area contrast evaluation value in the area, and to determine an evaluation area (701-4, 702-4, 1101-1, 1101-2) comprising the most areas with coincident optimal area tilt angles; and a tilt angle determining unit configured to determine a target tilt angle based on the coincident optimal area tilt angles of the evaluation area (701-4, 702-4, 1101-1, 1101-2); wherein the controlling unit is further configured to change the tilt angle based on the target tilt angle. an image sensor ; an optical system ; a controlling unit configured to change a tilt angle between the image sensor and a plane orthogonal to an optical axis of the optical system by tilting at least one of the image sensor and the optical system , and to set a plurality of areas in an image (301-1, 302-1, 701-1, 702-1) captured by the image sensor ; to change a tilt angle between the image sensor and a plane orthogonal to an optical axis of the optical system by tilting at least one of the image sensor and the optical system , and to set a plurality of areas in an image (301-1, 302-1, 701-1, 702-1) captured by the image sensor ; an evaluation value acquiring unit configured to acquire for each area a plurality of area contrast evaluation values by changing the tilt angle through the controlling unit ; an evaluation area determining unit configured to acquire, for each of the plurality of areas , an optimal area tilt angle corresponding to a maximum area contrast evaluation value in the area, and to determine an evaluation area (701-4, 702-4, 1101-1, 1101-2) comprising the most areas with coincident optimal area tilt angles; and to acquire, for each of the plurality of areas , an optimal area tilt angle corresponding to a maximum area contrast evaluation value in the area, and to determine an evaluation area (701-4, 702-4, 1101-1, 1101-2) comprising the most areas with coincident optimal area tilt angles; and a tilt angle determining unit configured to determine a target tilt angle based on the coincident optimal area tilt angles of the evaluation area (701-4, 702-4, 1101-1, 1101-2); wherein the controlling unit is further configured to change the tilt angle based on the target tilt angle. <EOS>
A cutting tool, in particular a milling cutter, boring tool or reamer, comprising a tool head , which can rotate about its central axis and comprises a front end face and a circumferential surface , a plurality of cutting elements and associated flutes that are arranged on the circumferential surface so as to be distributed in the circumferential direction, and a channel system , which runs through the tool head and supplies coolant to the cutting elements , wherein the end face of the tool head is provided with coolant grooves , each of which leads from an outlet of the channel system to a mouth in a flute , and wherein the longitudinal openings in the coolant grooves are covered by a baffle disk that is fixed to the end face of the tool head , characterized in that the baffle disk is formed by a toothed ring, the radially projecting toothed segments of which cover the coolant grooves . <EOS>
A reader device , comprising: a memory storing configuration data configuring the reader device ; a first interface configured to connect the reader device to a host device ; a second interface configured to connect a physical token to the reader device ; and a controller configured to: - access the memory to read and write data to/from the same; - communicate with the host device via the first interface ; - communicate with the physical token via the second interface ; characterized in that the controller is further configured to: - in response to a detection that no physical token is connected to the reader device , emulate a virtual token and transmit a first message indicating that the virtual token is connected to the reader device to the host device ; and - in response to receiving at least one command addressing the virtual token from the host device , modify the configuration data stored in the memory in accordance with the at least one command. a memory storing configuration data configuring the reader device ; a first interface configured to connect the reader device to a host device ; a second interface configured to connect a physical token to the reader device ; and a controller configured to: - access the memory to read and write data to/from the same; - communicate with the host device via the first interface ; - communicate with the physical token via the second interface ; - access the memory to read and write data to/from the same; - communicate with the host device via the first interface ; - communicate with the physical token via the second interface ; characterized in that the controller is further configured to: - in response to a detection that no physical token is connected to the reader device , emulate a virtual token and transmit a first message indicating that the virtual token is connected to the reader device to the host device ; and - in response to receiving at least one command addressing the virtual token from the host device , modify the configuration data stored in the memory in accordance with the at least one command. - in response to a detection that no physical token is connected to the reader device , emulate a virtual token and transmit a first message indicating that the virtual token is connected to the reader device to the host device ; and - in response to receiving at least one command addressing the virtual token from the host device , modify the configuration data stored in the memory in accordance with the at least one command. <EOS>
A control system for emergency shut-off of a steam or a gas-powered turbine, the system comprising: a flow line for delivering a supply of gas or steam to said turbine, first and second emergency shut-off signal generators , a first valve that blocks, in response to a first emergency shut-off signal of a first signal type from said first emergency shut-off signal generator , a flow of fluid between a first section of said flow line and a second section of said flow line; a second valve that blocks, in response to a second emergency shut-off signal of a second signal type from said second emergency shut-off signal generator , a flow of fluid between said second section of said flow line and a third section of said flow line, characterised in that said first emergency shut-off signal is a hydraulic signal, and said second emergency shut-off signal is an electrical signal. a flow line for delivering a supply of gas or steam to said turbine, first and second emergency shut-off signal generators , a first valve that blocks, in response to a first emergency shut-off signal of a first signal type from said first emergency shut-off signal generator , a flow of fluid between a first section of said flow line and a second section of said flow line; a second valve that blocks, in response to a second emergency shut-off signal of a second signal type from said second emergency shut-off signal generator , a flow of fluid between said second section of said flow line and a third section of said flow line, characterised in that said first emergency shut-off signal is a hydraulic signal, and said second emergency shut-off signal is an electrical signal. <EOS>
A method of diagnosing appendicitis in a subject, comprising: performing an assay configured to detect Pro-Hepcidin on a body fluid sample obtained from the subject to provide an assay result; and correlating the assay result to the occurrence or nonoccurrence of appendicitis in the subject by comparing the assay result to a threshold selected in a population study, wherein the threshold separates the population into a first subpopulation above the threshold which is at an increased predisposition for the occurrence of appendicitis, and a second subpopulation below the threshold which is at an increased predisposition for the nonoccurrence of appendicitis relative to the first subpopulation. performing an assay configured to detect Pro-Hepcidin on a body fluid sample obtained from the subject to provide an assay result; and correlating the assay result to the occurrence or nonoccurrence of appendicitis in the subject by comparing the assay result to a threshold selected in a population study, wherein the threshold separates the population into a first subpopulation above the threshold which is at an increased predisposition for the occurrence of appendicitis, and a second subpopulation below the threshold which is at an increased predisposition for the nonoccurrence of appendicitis relative to the first subpopulation. <EOS>
A pneumatic tire comprising: a pattern formed on a sidewall , wherein a reference line extending in a tire circumferential direction and a plurality of reference points provided on the reference line are set on the sidewall , an annular pattern centered at each of the reference points is provided, and a plurality of annular patterns has the same shape and overlap one another to form the pattern , characterized in that the shape of the annular pattern is an oval. a pattern formed on a sidewall , wherein a reference line extending in a tire circumferential direction and a plurality of reference points provided on the reference line are set on the sidewall , an annular pattern centered at each of the reference points is provided, and a plurality of annular patterns has the same shape and overlap one another to form the pattern , characterized in that the shape of the annular pattern is an oval. <EOS>
A frequency support system arranged for providing frequency support to an AC grid , the system comprising: an energy storage, ES, arrangement ; and a bi-directional DC/AC power electronic converter interface configured for connecting the ES arrangement with the grid ; ES arrangement comprising a plurality of series connected ES groups , each ES group comprising a plurality of parallel connected ES modules , each ES module comprising an ES interfaced by a bi-directional power electronic ES converter configured for connecting the ES with a DC side of the converter interface , wherein the ES comprises a flywheel. an energy storage, ES, arrangement ; and a bi-directional DC/AC power electronic converter interface configured for connecting the ES arrangement with the grid ; ES arrangement comprising a plurality of series connected ES groups , each ES group comprising a plurality of parallel connected ES modules , each ES module comprising an ES interfaced by a bi-directional power electronic ES converter configured for connecting the ES with a DC side of the converter interface , wherein the ES comprises a flywheel. <EOS>
A transparency comprising: a transparent substrate; and a plurality of electrically conductive lines on the transparent substrate, at least one of the electrically conductive lines intersecting at least one other electrically conductive line, and at least one of the electrically conductive lines having a width of no more than 50 μm; wherein at least one of the electrically conductive lines has undulations, wherein the undulations have peaks and troughs in a plane defined by the transparent substrate such that a distance between two adjacent peaks is no more than 30 μm. a transparent substrate; and a plurality of electrically conductive lines on the transparent substrate, at least one of the electrically conductive lines intersecting at least one other electrically conductive line, and at least one of the electrically conductive lines having a width of no more than 50 μm; wherein at least one of the electrically conductive lines has undulations, wherein the undulations have peaks and troughs in a plane defined by the transparent substrate such that a distance between two adjacent peaks is no more than 30 μm. <EOS>
Electrical power supply disconnector used in a protection module protecting against electrical faults to make or break the connection between current conductors and a power supply circuit, said power supply disconnector being characterized in that it comprises: - a housing of rectangular section, comprising a top wall and a bottom wall , the internal faces of the top wall and of the bottom wall facing one another and delimiting a central passage oriented along a central axis (X), the bottom wall bearing, on its internal face, at least one bottom contact blade , the top wall bearing, on its internal face, at least one first top contact blade , said first top contact blade being situated facing the first bottom contact blade along a contact axis (Y), and - a slide arranged to slide in the central passage in the direction of the central axis (X), characterized in that the slide is adapted to support at least one first electricity-conducting bar , said first bar being oriented along the contact axis (Y) and arranged to electrically connect the first bottom contact blade and the first top contact blade when said slide is in a first position. - a housing of rectangular section, comprising a top wall and a bottom wall , the internal faces of the top wall and of the bottom wall facing one another and delimiting a central passage oriented along a central axis (X), the bottom wall bearing, on its internal face, at least one bottom contact blade , the top wall bearing, on its internal face, at least one first top contact blade , said first top contact blade being situated facing the first bottom contact blade along a contact axis (Y), and - a slide arranged to slide in the central passage in the direction of the central axis (X), <EOS>
A population of HPV-specific T-cells prepared according to a method comprising: (a) dividing an HPV-positive tumor sample into multiple fragments; (b) culturing the multiple fragments in the presence of at least one cytokine; (c) obtaining T-cells from the cultured fragments; (d) expanding the number of T-cells to produce an expanded population of HPV-specific T-cells using one or both of (i) irradiated allogenic feeder cells and (ii) irradiated autologous feeder cells; and one or both of (iii) OKT3 antibody and (iv) interleukin-2, wherein the T-cells have not been depleted of CD4 + cells; (e) optionally, adding a second culturing step following (c); for use in treating or preventing cancer in a mammal, wherein the population of HPV-specific T-cells is administered to the mammal in an amount effective to treat or prevent the cancer in the mammal. (a) dividing an HPV-positive tumor sample into multiple fragments; (b) culturing the multiple fragments in the presence of at least one cytokine; (c) obtaining T-cells from the cultured fragments; (d) expanding the number of T-cells to produce an expanded population of HPV-specific T-cells using one or both of (i) irradiated allogenic feeder cells and (ii) irradiated autologous feeder cells; and one or both of (iii) OKT3 antibody and (iv) interleukin-2, wherein the T-cells have not been depleted of CD4 + cells; one or both of (i) irradiated allogenic feeder cells and (ii) irradiated autologous feeder cells; and one or both of (iii) OKT3 antibody and (iv) interleukin-2, (e) optionally, adding a second culturing step following (c); <EOS>
A memory circuit comprising: a bistable circuit configured to write data; a nonvolatile element (MTJ1, MTJ2) configured to store data written in the bistable circuit in a nonvolatile manner by changing a resistance value with a current flowing between one end and the other end and restore data stored in a nonvolatile manner into the bistable circuit , the nonvolatile element (MTJ1, MTJ2) having the one end connected to a node (Q, QB) in the bistable circuit and the other end connected to a control line (CTRL); an FET (m7, m8) having a source and a drain connected in series to the nonvolatile element (MTJ1, MTJ2) between the node (Q, QB) and the control line (CTRL); and characterized in that the memory circuit further comprises: a control unit configured to make a highest voltage (SR) to be applied to a gate of the FET (m7, m8) during a period to restore data stored in the nonvolatile element (MTJ1, MTJ2) in a nonvolatile manner into the bistable circuit lower than a voltage of a node being at a high level in the bistable circuit during a period to write data into and read data from the bistable circuit in a volatile manner. a bistable circuit configured to write data; a nonvolatile element (MTJ1, MTJ2) configured to store data written in the bistable circuit in a nonvolatile manner by changing a resistance value with a current flowing between one end and the other end and restore data stored in a nonvolatile manner into the bistable circuit , the nonvolatile element (MTJ1, MTJ2) having the one end connected to a node (Q, QB) in the bistable circuit and the other end connected to a control line (CTRL); an FET (m7, m8) having a source and a drain connected in series to the nonvolatile element (MTJ1, MTJ2) between the node (Q, QB) and the control line (CTRL); and characterized in that the memory circuit further comprises: a control unit configured to make a highest voltage (SR) to be applied to a gate of the FET (m7, m8) during a period to restore data stored in the nonvolatile element (MTJ1, MTJ2) in a nonvolatile manner into the bistable circuit lower than a voltage of a node being at a high level in the bistable circuit during a period to write data into and read data from the bistable circuit in a volatile manner. <EOS>
Self-piercing rivet for producing a joining connection between at least two components (C1, C2, C3) comprising: a. a rivet head and a rivet shank having a central shank bore comprising a base, b. the rivet shank comprises a cylindrical shank outer surface and a shank inner surface limiting the central shank bore, the rivet shank comprises an annular piercing end facing away from the rivet head , c. the shank outer surface has a first diameter (Ds), the central shank bore comprises a bore depth (T) between the base of the central shank bore and the annular piercing end , characterized in that a ratio of the first diameter (Ds) to the bore depth (T) is in the range of 0.50≦Ds/T≦0.67, wherein the shank outer surface and the shank inner surface are connected at the annular piercing end by a shank end face and a shank end radius, wherein the shank end face is arcuate, and wherein the arcuate shank end face comprises a radius of curvature (R4) between 0.15 and 0.3 mm . a. a rivet head and a rivet shank having a central shank bore comprising a base, b. the rivet shank comprises a cylindrical shank outer surface and a shank inner surface limiting the central shank bore, the rivet shank comprises an annular piercing end facing away from the rivet head , c. the shank outer surface has a first diameter (Ds), the central shank bore comprises a bore depth (T) between the base of the central shank bore and the annular piercing end , <EOS>
A rail system for a sliding door system having at least one first and second door leave , comprising several profile rails, wherein the door leaves are each guidable on at least one of the profile rails , wherein the profile rails are arranged on a first rail element extending in the longitudinal direction of the rail system and extend parallel to each other in the longitudinal direction of the rail system, wherein the first rail element is connected to a second rail element extending in the longitudinal direction of the rail system, wherein the first rail element has a first main body from which the profile rails (#13) protrude, and wherein the second rail element has a second main body , characterized in that the first main body of the first rail element is arranged horizontally in a direction transverse to the longitudinal direction of the rail system, that the second main body of the second rail element has a surface facing the first main body and being at least partially arranged in an inclined manner in a direction transverse to the longitudinal direction of the rail system, and that several fastening elements are arranged between the first and the second rail element , wherein the first rail element rests with the first main body on the fastening elements and the fastening elements rest on the surface of the second main body of the second rail element . <EOS>
A utility knife, comprising: a handle ; a blade carrier coupled to the handle , the blade carrier configured to releasably couple to a utility knife blade ; and a blade retention mechanism coupled to the blade carrier, the blade retention mechanism including: a button ; and a slider coupled to the button, the slider movable between a locked position and an unlocked position, wherein in the locked position the slider engages with the utility knife blade to securably retain the utility knife blade, wherein in the unlocked position the slider is disengaged from the utility knife blade to permit removal of the utility knife blade , and wherein during a movement of the slider from the locked position to the unlocked position, the slider moves away from the blade carrier ; characterized in that an actuation of the button in a direction perpendicular or substantially perpendicular to a movement direction associated with the slider between the locked and unlocked positions enables the slider to move from the locked position to the unlocked position. a handle ; a blade carrier coupled to the handle , the blade carrier configured to releasably couple to a utility knife blade ; and a blade retention mechanism coupled to the blade carrier, the blade retention mechanism including: a button ; and a slider coupled to the button, the slider movable between a locked position and an unlocked position, wherein in the locked position the slider engages with the utility knife blade to securably retain the utility knife blade, wherein in the unlocked position the slider is disengaged from the utility knife blade to permit removal of the utility knife blade , and wherein during a movement of the slider from the locked position to the unlocked position, the slider moves away from the blade carrier ; a button ; and a slider coupled to the button, the slider movable between a locked position and an unlocked position, wherein in the locked position the slider engages with the utility knife blade to securably retain the utility knife blade, wherein in the unlocked position the slider is disengaged from the utility knife blade to permit removal of the utility knife blade , and wherein during a movement of the slider from the locked position to the unlocked position, the slider moves away from the blade carrier ; characterized in that an actuation of the button in a direction perpendicular or substantially perpendicular to a movement direction associated with the slider between the locked and unlocked positions enables the slider to move from the locked position to the unlocked position. <EOS>
A magnetic bearing device for magnetically suspending a rotor for rotation about a rotation axis (A), the magnetic bearing device comprising an amplifier device , a first main coil (p) extending around the rotation axis (A), and a second main coil (n) extending around the rotation axis (A), one terminal (p1) of the first main coil (p) being connected to a first output of the amplifier device ; one terminal (n1) of the second main coil (n) being connected to a second output of the amplifier device ; a further terminal (p2) of the first main coil (p) being connected to a further terminal (n2) of the second main coil (n) at a common node ; the main coils (p, n) causing a stray flux when being supplied with currents (i p , i n ) by the amplifier device , characterized in that the magnetic bearing device comprises at least one compensation coil (c; cp, cn) connected between the third output of the amplifier device and the common node , in that the compensation coil (c; cp, cn) extends around the rotation axis (A), and in that the first main coil (p), the second main coil (n) and the compensation coil (c) are connected to the amplifier device with such polarities that any current (i c ) that flows between the amplifier device and the common node through the compensation coil (c) causes a magnetic field that diminishes the stray flux caused by the main coils (p, n). the magnetic bearing device comprising an amplifier device , a first main coil (p) extending around the rotation axis (A), and a second main coil (n) extending around the rotation axis (A), one terminal (p1) of the first main coil (p) being connected to a first output of the amplifier device ; one terminal (n1) of the second main coil (n) being connected to a second output of the amplifier device ; a further terminal (p2) of the first main coil (p) being connected to a further terminal (n2) of the second main coil (n) at a common node ; the main coils (p, n) causing a stray flux when being supplied with currents (i p , i n ) by the amplifier device , characterized in that the magnetic bearing device comprises at least one compensation coil (c; cp, cn) connected between the third output of the amplifier device and the common node , in that the compensation coil (c; cp, cn) extends around the rotation axis (A), and in that the first main coil (p), the second main coil (n) and the compensation coil (c) are connected to the amplifier device with such polarities that any current (i c ) that flows between the amplifier device and the common node through the compensation coil (c) causes a magnetic field that diminishes the stray flux caused by the main coils (p, n). <EOS>
A method for improving fuel efficiency of an aircraft , the method comprising: calculating a current aircraft fuel weight in fuel tanks of the aircraft during a flight of the aircraft, wherein calculating is based on sensing a quantity and calculating a density based on a sensed temperature of the aircraft fuel; reading the current aircraft fuel weight by a flight management system ; calculating a current center of gravity position of the aircraft from the current aircraft fuel weight by the flight management system; calculating a longitudinal trim drag factor for the aircraft from the current center of gravity position by the flight management system; calculating an adjusted fuel burn prediction for the aircraft utilizing the longitudinal trim drag factor by the flight management system; and when an autopilot system of the aircraft is engaged in response to the changing center of gravity position , automatically adjusting , by the flight management system , the pitch or pitch trim of the aircraft in response to the adjusted fuel burn prediction, and when the autopilot system of the aircraft is not engaged in response to the changing center of gravity position , prompting , by the flight management system , a pilot to manually adjust the pitch trim of the aircraft in response to the adjusted fuel burn prediction. calculating a current aircraft fuel weight in fuel tanks of the aircraft during a flight of the aircraft, wherein calculating is based on sensing a quantity and calculating a density based on a sensed temperature of the aircraft fuel; reading the current aircraft fuel weight by a flight management system ; calculating a current center of gravity position of the aircraft from the current aircraft fuel weight by the flight management system; calculating a longitudinal trim drag factor for the aircraft from the current center of gravity position by the flight management system; calculating an adjusted fuel burn prediction for the aircraft utilizing the longitudinal trim drag factor by the flight management system; and when an autopilot system of the aircraft is engaged in response to the changing center of gravity position , automatically adjusting , by the flight management system , the pitch or pitch trim of the aircraft in response to the adjusted fuel burn prediction, and when the autopilot system of the aircraft is not engaged in response to the changing center of gravity position , prompting , by the flight management system , a pilot to manually adjust the pitch trim of the aircraft in response to the adjusted fuel burn prediction. <EOS>
An apparatus for separating particulates from a fluid, comprising: a separation section having at least one wall, a first end , a second end and an inner metal surface exposed to an internal volume of the separation section wherein the inner metal surface comprises a carburized metal, a boronized metal, a nitrided metal, or any combination thereof; a fluid discharge outlet in fluid communication with the internal volume at the first end ; a particulate discharge outlet in fluid communication with the internal volume at the second end ; and an inlet in fluid communication with the internal volume , wherein the inlet is disposed intermediate the first end and the second end . a separation section having at least one wall, a first end , a second end and an inner metal surface exposed to an internal volume of the separation section wherein the inner metal surface comprises a carburized metal, a boronized metal, a nitrided metal, or any combination thereof; a fluid discharge outlet in fluid communication with the internal volume at the first end ; a particulate discharge outlet in fluid communication with the internal volume at the second end ; and an inlet in fluid communication with the internal volume , wherein the inlet is disposed intermediate the first end and the second end . <EOS>
A deformable membrane assembly comprising a fixed support , a fluid-filled envelope, at least one wall of which is formed by an elastic membrane having a planar state or theoretical planar state which defines a datum plane, the elastic membrane being held under tension around its edge by a bendable membrane supporting member , the membrane supporting member being coupled to the fixed support at a plurality of discrete control points round the supporting member for controlling the position of the membrane edge relative to the fixed support at the control points, and the supporting member being unconstrained and thereby free to bend out-of-plane with respect to the datum plane between said control points, and a selectively operable pressure adjuster for adjusting the pressure of the fluid within the envelope, thereby to adjust the shape of the membrane ; wherein at least three control points are provided around the membrane edge at spaced locations on the membrane supporting member that are selected to allow the membrane to deform in accordance with one or more desired modes whilst inhibiting displacement of the membrane edge in accordance with a lowest order out-of-plane bending mode of the supporting member in response to loading through tension in the membrane ; and wherein the one or more desired modes are selected from second, third and fourth order Zernike polynomials such that the membrane deforms spherically or spherically with one or more deviations from spherical selected from astigmatism, coma and trefoil, and the lowest order out-of-plane bending mode is a toric, saddle-like mode; wherein at least three of the said control points are situated at respective points on the supporting member where the supporting member remains substantially stationary as the pressure in the envelope is changed, and each of the said at least three of the control points is a hinge point at which the membrane supporting member is hinged to the fixed support to prevent displacement of the supporting member at the respective hinge point along a z-axis which is perpendicular to the datum plane. <EOS>
A sheath assembly for the insertion of a percutaneous pump , the sheath assembly comprising: a tubular sheath body dimensioned for insertion into a blood vessel through a vessel aperture and including: a wall having a proximal end portion , a distal end portion , a longitudinal axis , an outer surface , and an inner surface defining a first lumen substantially parallel to the longitudinal axis , wherein the first lumen is dimensioned to allow passage of a portion of the percutaneous pump ; a second lumen disposed within the wall between the inner surface and the outer surface and extending from the proximal end portion to the distal end portion , wherein the second lumen is dimensioned for passage of a guidewire and wherein the second lumen has a proximal section having a proximal section diameter and a distal section having a distal section diameter , wherein the proximal section diameter is greater than the distal section diameter ; and a stylet positioned to substantially occlude the second lumen , wherein the stylet has a proximal end releasably secured to the sheath assembly . a tubular sheath body dimensioned for insertion into a blood vessel through a vessel aperture and including: a wall having a proximal end portion , a distal end portion , a longitudinal axis , an outer surface , and an inner surface defining a first lumen substantially parallel to the longitudinal axis , wherein the first lumen is dimensioned to allow passage of a portion of the percutaneous pump ; a second lumen disposed within the wall between the inner surface and the outer surface and extending from the proximal end portion to the distal end portion , wherein the second lumen is dimensioned for passage of a guidewire and wherein the second lumen has a proximal section having a proximal section diameter and a distal section having a distal section diameter , wherein the proximal section diameter is greater than the distal section diameter ; and a wall having a proximal end portion , a distal end portion , a longitudinal axis , an outer surface , and an inner surface defining a first lumen substantially parallel to the longitudinal axis , wherein the first lumen is dimensioned to allow passage of a portion of the percutaneous pump ; a second lumen disposed within the wall between the inner surface and the outer surface and extending from the proximal end portion to the distal end portion , wherein the second lumen is dimensioned for passage of a guidewire and wherein the second lumen has a proximal section having a proximal section diameter and a distal section having a distal section diameter , wherein the proximal section diameter is greater than the distal section diameter ; and a stylet positioned to substantially occlude the second lumen , wherein the stylet has a proximal end releasably secured to the sheath assembly . <EOS>
Method for authenticating access authorization by means of an access control system , wherein the access control system comprises a terminal and an ID token that are designed to communicate with one another via a secure channel in the form of a session, wherein restoring the session between terminal and ID token involves a session context, CKS, encrypted by the ID token , of a session context, KSK, of the ID token of the session being generated and being stored in the terminal together with an associated session context, TSK, of the terminal and an attribute, KID, of the ID token without the ID token storing the session context, KSK, itself, the attribute, KID, being a unique token identifier, KUID. <EOS>
A treatment method of radioactive waste water containing radioactive cesium and radioactive strontium, comprising passing the radioactive waste water containing radioactive cesium and radioactive strontium through an adsorption column packed with an adsorbent for cesium and strontium, to adsorb the radioactive cesium and radioactive strontium on the adsorbent, wherein the adsorbent for cesium and strontium comprises a crystalline silicotitanate having a full width at half maximum, is short FWHM, of 0.3 ° or more and 0.9 ° or less of the diffraction peak in the lattice plane at 2 θ =10 ° or more and 2 θ =13 ° or less in an X-ray diffraction analysis using Cu-K α line as an X-ray source and having a crystallite diameter obtained by the Scherrer equation on the basis of the FWHM of 60 Å or more and 250 Å or less, the crystalline silicotitanate represented by the general formula: A 4 Ti 4 Si 3 O 16 ·nH 2 O wherein A is Na or K or a combination thereof, and n represents a number of 0 to 8, wherein the adsorbent for cesium and strontium does not comprise titanate salts, wherein the adsorbent for cesium and strontium does not comprise any binders, wherein the adsorbent for cesium and strontium is a granular adsorbent having a grain size of 250 μm or more and 1200 μm or less, wherein the absorbent is packed to a height of 10 cm or more and 300 cm or less in the adsorption column, and wherein the radioactive waste water is passed through the adsorption column at a linear velocity of 1 m/h or more and 40 m/h or less and a space velocity of 200 h -1 or less. wherein the adsorbent for cesium and strontium comprises a crystalline silicotitanate having a full width at half maximum, is short FWHM, of 0.3 ° or more and 0.9 ° or less of the diffraction peak in the lattice plane at 2 θ =10 ° or more and 2 θ =13 ° or less in an X-ray diffraction analysis using Cu-K α line as an X-ray source and having a crystallite diameter obtained by the Scherrer equation on the basis of the FWHM of 60 Å or more and 250 Å or less, the crystalline silicotitanate represented by the general formula: A 4 Ti 4 Si 3 O 16 ·nH 2 O wherein A is Na or K or a combination thereof, and n represents a number of 0 to 8, wherein the adsorbent for cesium and strontium does not comprise titanate salts, wherein the adsorbent for cesium and strontium does not comprise any binders, wherein the adsorbent for cesium and strontium is a granular adsorbent having a grain size of 250 μm or more and 1200 μm or less, wherein the absorbent is packed to a height of 10 cm or more and 300 cm or less in the adsorption column, and wherein the radioactive waste water is passed through the adsorption column at a linear velocity of 1 m/h or more and 40 m/h or less and a space velocity of 200 h -1 or less. <EOS>
An article (10a-10e) comprising: an optical filter , wherein the optical filter comprises a wavelength selective scattering layer , wherein the wavelength selective scattering layer comprises a binder, a plurality of particles, and a plurality of interconnected voids, wherein the wavelength selective scattering layer has a near-infrared scattering ratio of less than about 0.9, the near-infrared scattering ratio being a ratio of an average near-infrared scattering to an average visible haze, the average visible haze being visible transmission haze determined according to ASTM D 1003, the average infrared scattering being determined by the average of near-infrared scattering determined using a spectrometer at wavelengths between 800 nm and 1000 nm, wherein the wavelength selective scattering layer has a visible reflective haze ratio of greater than about 0.1, the visible reflective haze ratio being a ratio of an average visible diffusive reflectance to an average visible total reflectance, wherein the plurality of particles have an imaginary refractive index less than 10. wherein the optical filter comprises a wavelength selective scattering layer , wherein the wavelength selective scattering layer comprises a binder, a plurality of particles, and a plurality of interconnected voids, wherein the wavelength selective scattering layer has a near-infrared scattering ratio of less than about 0.9, the near-infrared scattering ratio being a ratio of an average near-infrared scattering to an average visible haze, the average visible haze being visible transmission haze determined according to ASTM D 1003, the average infrared scattering being determined by the average of near-infrared scattering determined using a spectrometer at wavelengths between 800 nm and 1000 nm, wherein the wavelength selective scattering layer has a visible reflective haze ratio of greater than about 0.1, the visible reflective haze ratio being a ratio of an average visible diffusive reflectance to an average visible total reflectance, wherein the plurality of particles have an imaginary refractive index less than 10. <EOS>
An electronic device comprising: one or more cameras configured to capture pixel changes from an eye of a wearer of the electronic device, the one or more cameras comprising at least one Dynamic Vision Sensor (DVS) camera and at least one complementary metal-oxide sensor (CMOS) used to generate an image associated with the eye of the wearer; and one or more processors configured to: receive, from the at least one CMOS camera, the image associated with the eye of the wearer, determine and initialize an initial pose of the eye based on the image associated with the eye of the wearer, receive DVS data from the at least one DVS camera, track one or more changes to the initial pose of the eye based on the DVS data , and based on the one or more changes to the initial pose of the eye, determine a gaze of the wearer , wherein the processor causes the at least one CMOS camera to power off subsequent to the initial pose being determined. one or more cameras configured to capture pixel changes from an eye of a wearer of the electronic device, the one or more cameras comprising at least one Dynamic Vision Sensor (DVS) camera and at least one complementary metal-oxide sensor (CMOS) used to generate an image associated with the eye of the wearer; and one or more processors configured to: receive, from the at least one CMOS camera, the image associated with the eye of the wearer, determine and initialize an initial pose of the eye based on the image associated with the eye of the wearer, receive DVS data from the at least one DVS camera, track one or more changes to the initial pose of the eye based on the DVS data , and receive, from the at least one CMOS camera, the image associated with the eye of the wearer, determine and initialize an initial pose of the eye based on the image associated with the eye of the wearer, receive DVS data from the at least one DVS camera, track one or more changes to the initial pose of the eye based on the DVS data , and based on the one or more changes to the initial pose of the eye, determine a gaze of the wearer , wherein the processor causes the at least one CMOS camera to power off subsequent to the initial pose being determined. <EOS>
An ink and processing liquid set comprising: a processing liquid to be applied to a recording medium, the processing liquid comprising a multivalent metal salt; and an ink to be applied to an area of the recording medium where the processing liquid has been applied, the ink comprising a urethane resin, a styrene-acrylic resin, and a pigment, wherein the following relations are satisfied: 0.5 ≤ B/C ≤ 0.7, where B represents a static surface tension of the ink and C represents a static surface tension of the processing liquid; and 0.5 ≤ E/D ≤ 0.9, and 35 (mN/m) ≤ E ≤ 55 (mN/m), where D represents a dynamic surface tension at 15 ms of the processing liquid and E represents a dynamic surface tension at 1500 ms of the processing liquid. a processing liquid to be applied to a recording medium, the processing liquid comprising a multivalent metal salt; and an ink to be applied to an area of the recording medium where the processing liquid has been applied, the ink comprising a urethane resin, a styrene-acrylic resin, and a pigment, wherein the following relations are satisfied: 0.5 ≤ B/C ≤ 0.7, where B represents a static surface tension of the ink and C represents a static surface tension of the processing liquid; and 0.5 ≤ E/D ≤ 0.9, and 35 (mN/m) ≤ E ≤ 55 (mN/m), where D represents a dynamic surface tension at 15 ms of the processing liquid and E represents a dynamic surface tension at 1500 ms of the processing liquid. 0.5 ≤ B/C ≤ 0.7, where B represents a static surface tension of the ink and C represents a static surface tension of the processing liquid; and 0.5 ≤ E/D ≤ 0.9, and 35 (mN/m) ≤ E ≤ 55 (mN/m), where D represents a dynamic surface tension at 15 ms of the processing liquid and E represents a dynamic surface tension at 1500 ms of the processing liquid. <EOS>
An apparatus comprising: a silicon interposer ; a communication fabric; an accelerator die comprising a plurality of computing elements to simultaneously perform operations on a plurality of matrix data elements; a plurality of dot-product engines , the plurality of dot product engines to compute a plurality of dot-products on the matrix data elements to generate a plurality of result matrix data elements; a buffer or cache to store a plurality of matrix data elements; a memory controller coupled to the communication fabric; and a stacked DRAM (8301-8304) that stacks a plurality of DRAM dies (8301-8304) vertically via an interface layer on the silicon interposer coupled to the accelerator die , wherein connections between the stacked DRAM (8301-8304) and the accelerator die via the communication fabric are running through the silicon interposer and the interface layer . a silicon interposer ; a communication fabric; an accelerator die comprising a plurality of computing elements to simultaneously perform operations on a plurality of matrix data elements; a plurality of dot-product engines , the plurality of dot product engines to compute a plurality of dot-products on the matrix data elements to generate a plurality of result matrix data elements; a buffer or cache to store a plurality of matrix data elements; a memory controller coupled to the communication fabric; and a stacked DRAM (8301-8304) that stacks a plurality of DRAM dies (8301-8304) vertically via an interface layer on the silicon interposer coupled to the accelerator die , wherein connections between the stacked DRAM (8301-8304) and the accelerator die via the communication fabric are running through the silicon interposer and the interface layer . <EOS>
A medical positioning catheter for use when implanting a mitral valve implant or for repairing a heart defect or a mitral valve , wherein the positioning catheter has: a distal end region which comprises a distal end of the positioning catheter , and a proximal end region which comprises a proximal end of the positioning catheter ; a hollow guide section; wherein the guide section has a straight section and at least a first curved section and a second curved section ; wherein the first curved section and the second curved section lie in the distal end region or wherein the first curved section or the second curved section form the distal end; wherein the first curved section and the second curved section are disposed distally to the straight section ; wherein the first curved section causes the guide section to be deflected or curved by 10° to 120°, preferably by 90° to 120°, characterized in that the second curved section causes the guide section to be deflected or curved by 20° to 40°, and in that a 2 to 6 cm long section is disposed between the first curved section and the second curved section . a distal end region which comprises a distal end of the positioning catheter , and a proximal end region which comprises a proximal end of the positioning catheter ; a hollow guide section; wherein the guide section has a straight section and at least a first curved section and a second curved section ; wherein the first curved section and the second curved section lie in the distal end region or wherein the first curved section or the second curved section form the distal end; wherein the first curved section and the second curved section are disposed distally to the straight section ; wherein the first curved section causes the guide section to be deflected or curved by 10° to 120°, preferably by 90° to 120°, characterized in that the second curved section causes the guide section to be deflected or curved by 20° to 40°, and in that a 2 to 6 cm long section is disposed between the first curved section and the second curved section . <EOS>
A device for applying slips, said device comprising a doctor blade body having a working edge, wherein said doctor blade body has at least one delivery slot for delivering a slip, which slot is provided parallel to said working edge, characterized in that said doctor blade body is divided into compartments by at least one moveable separation element arranged vertically to its longitudinal direction, wherein a gap having a width of at least 100 μm has been formed between the lateral walls of said at least one separation element and the adjacent doctor blade surface. <EOS>
An installation (10, 10', 10", 10"') for shaping an axisymmetric fiber preform presenting a profile that varies in radial section, the installation comprising a storage mandrel for storing a fiber texture in the form of a wound strip, one or more follower rollers (400, 400', 400", 500), and an axisymmetric mold on which the fiber texture is to be shaped by being wound, the follower roller(s) (400, 400', 400", 500) being placed between the storage mandrel and the axisymmetric mold , the storage mandrel , the follower roller(s) (400, 400', 400", 500), and the mold presenting radii along their axes of rotation that vary so as to define outside surfaces presenting respective profiles in relief, the installation (10, 10', 10", 10"') being characterized in that it comprises at least one tension adjustment device (700, 700', 700") for adjusting tension on the fiber texture , said tension adjustment device (700, 700', 700") comprising at least one row of rods (70, 70', 70") aligned in a first direction parallel to an axis of rotation of one or more follower rollers (400, 400', 400", 500): - each rod (70, 70', 70") presenting an endpiece (72, 72', 72") at a free end in order to come into contact with the fiber texture ; and - each rod being movable in a second direction orthogonal to said first direction. - each rod (70, 70', 70") presenting an endpiece (72, 72', 72") at a free end in order to come into contact with the fiber texture ; and - each rod being movable in a second direction orthogonal to said first direction. <EOS>
A system comprising: a first imager comprising a pixel array, the imager configured to capture image data; a first variable transmittance mirror having a first level of transmittance; a controller configured to: assign a first light intensity value to one or more pixels, and change the first level of transmittance to a second level of transmittance based at least in part on the detected first light intensity; and a second variable transmittance mirror , having a third level of transmittance; wherein the controller is further configured to: determine whether the first light intensity is present in a first region of the pixel array, and change the first level of transmittance to a second level of transmittance and the third level of transmittance to a fourth level of transmittance, based further at least in part on: the detected first light intensity, and a determination of the presence of the first light intensity in the first region. a first imager comprising a pixel array, the imager configured to capture image data; a first variable transmittance mirror having a first level of transmittance; a controller configured to: assign a first light intensity value to one or more pixels, and change the first level of transmittance to a second level of transmittance based at least in part on the detected first light intensity; and assign a first light intensity value to one or more pixels, and change the first level of transmittance to a second level of transmittance based at least in part on the detected first light intensity; and a second variable transmittance mirror , having a third level of transmittance; determine whether the first light intensity is present in a first region of the pixel array, and change the first level of transmittance to a second level of transmittance and the third level of transmittance to a fourth level of transmittance, based further at least in part on: the detected first light intensity, and a determination of the presence of the first light intensity in the first region. the detected first light intensity, and a determination of the presence of the first light intensity in the first region. <EOS>
Trailer coupling for a motor vehicle with a coupling arm , wherein the coupling arm is pivotably mounted on a holder which is or may be attached to the motor vehicle with the aid of a swivel bearing between a position of use (G) and an inoperative position (N), wherein the coupling arm in the position of use (G) extends further back beyond a rear section of the motor vehicle for attaching a trailer or mounting a load carrier than in the inoperative position (N) provided for when the coupling arm is not in use, wherein the swivel bearing has a holder bearing location provided on the holder and a coupling arm bearing element carrying the coupling arm and mounted on the holder bearing location , pivotable around a swivel axis (S), wherein the coupling arm bearing element engages in an inner periphery of the holder bearing location , characterised in that on an inner periphery of the holder bearing location and an outer periphery of the coupling arm bearing element , a bearing slot and a bearing projection engage in one another around the swivel axis (S), for the rotatable mounting of the coupling arm bearing element in the holder bearing location . <EOS>
A method for indicating a channel in a wireless local area network, WLAN, said method being performed by a sending station and comprising: generating a physical protocol data unit, PPDU, wherein the PPDU includes a preamble field and a data field, a high efficiency signal field, HE-SIG-A, of the preamble field includes a bandwidth identifier, and the bandwidth identifier indicates a data transmission channel of the PPDU; sending the PPDU; characterized in that , the bandwidth identifier includes three bits; and when the bandwidth identifier is a first value, the first value indicates a first mode of the data transmission channel in a channel with a 80 MHz bandwidth; in the first mode, a primary 20 MHz channel and a secondary 40 MHz channel are included in the data transmission channel; and when the bandwidth identifier is a second value, the second value indicates a second mode of the data transmission channel in a channel with a 80 MHz bandwidth; in the second mode, the primary 20 MHz channel, the secondary 20 MHz channel, and one 20 MHz channel of the secondary 40 MHz channel are included in the data transmission channel. generating a physical protocol data unit, PPDU, wherein the PPDU includes a preamble field and a data field, a high efficiency signal field, HE-SIG-A, of the preamble field includes a bandwidth identifier, and the bandwidth identifier indicates a data transmission channel of the PPDU; sending the PPDU; characterized in that , the bandwidth identifier includes three bits; and when the bandwidth identifier is a first value, the first value indicates a first mode of the data transmission channel in a channel with a 80 MHz bandwidth; in the first mode, a primary 20 MHz channel and a secondary 40 MHz channel are included in the data transmission channel; and when the bandwidth identifier is a second value, the second value indicates a second mode of the data transmission channel in a channel with a 80 MHz bandwidth; in the second mode, the primary 20 MHz channel, the secondary 20 MHz channel, and one 20 MHz channel of the secondary 40 MHz channel are included in the data transmission channel. <EOS>
An egg processing apparatus , comprising: a plurality of egg processing devices configured to interact with an avian egg; and a sanitization system in fluid communication with the egg processing devices , the sanitization system being configured to deliver sanitizing fluid to the egg processing devices for sanitization thereof after interaction with an egg, the sanitization system having a valve-less manifold assembly comprising: a fluid inlet ; a plurality of fluid outlets , each fluid outlet being in fluid communication with a respective egg processing device ; a manifold cap defining a main fluid channel in fluid communication with the fluid inlet and tapering therefrom; a manifold body operably engaged with the manifold cap and defining a plurality of fluid delivery channels in fluid communication with the main fluid channel and extending therefrom, each fluid delivery channel having a plurality of outlet channels extending therefrom such that each fluid delivery channel is in fluid communication with a respective fluid outlet , the outlet channels being spaced-apart along the fluid delivery channels ; and wherein each fluid delivery channel branches off from the main fluid channel at a respective fluid junction , and further wherein each fluid delivery channel tapers from the respective fluid junction . a plurality of egg processing devices configured to interact with an avian egg; and a sanitization system in fluid communication with the egg processing devices , the sanitization system being configured to deliver sanitizing fluid to the egg processing devices for sanitization thereof after interaction with an egg, the sanitization system having a valve-less manifold assembly comprising: a fluid inlet ; a plurality of fluid outlets , each fluid outlet being in fluid communication with a respective egg processing device ; a manifold cap defining a main fluid channel in fluid communication with the fluid inlet and tapering therefrom; a manifold body operably engaged with the manifold cap and defining a plurality of fluid delivery channels in fluid communication with the main fluid channel and extending therefrom, each fluid delivery channel having a plurality of outlet channels extending therefrom such that each fluid delivery channel is in fluid communication with a respective fluid outlet , the outlet channels being spaced-apart along the fluid delivery channels ; and wherein each fluid delivery channel branches off from the main fluid channel at a respective fluid junction , and further wherein each fluid delivery channel tapers from the respective fluid junction . a fluid inlet ; a plurality of fluid outlets , each fluid outlet being in fluid communication with a respective egg processing device ; a manifold cap defining a main fluid channel in fluid communication with the fluid inlet and tapering therefrom; a manifold body operably engaged with the manifold cap and defining a plurality of fluid delivery channels in fluid communication with the main fluid channel and extending therefrom, each fluid delivery channel having a plurality of outlet channels extending therefrom such that each fluid delivery channel is in fluid communication with a respective fluid outlet , the outlet channels being spaced-apart along the fluid delivery channels ; and wherein each fluid delivery channel branches off from the main fluid channel at a respective fluid junction , and further wherein each fluid delivery channel tapers from the respective fluid junction . <EOS>
A method of wireless communication performed by a user equipment, UE, , comprising: receiving , from a base station, an indication that a plurality of physical downlink shared channel, PDSCH, communications are associated for purposes of demodulation reference signal, DMRS, bundling; characterized in that it further comprises: determining whether a phase continuity is maintained for the plurality of PDSCH communications based at least on respective quasi-co-location, QCL, assumptions for the plurality of PDSCH communications; and processing the plurality of PDSCH communications based at least on whether the phase continuity is maintained, wherein the processing comprises: coherently processing DMRSs from the plurality of PDSCH communication for which phase continuity is determined to be maintained, and non-coherently processing DMRSs from the plurality of PDSCH communication for which phase continuity is determined not to be maintained. determining whether a phase continuity is maintained for the plurality of PDSCH communications based at least on respective quasi-co-location, QCL, assumptions for the plurality of PDSCH communications; and processing the plurality of PDSCH communications based at least on whether the phase continuity is maintained, wherein the processing comprises: coherently processing DMRSs from the plurality of PDSCH communication for which phase continuity is determined to be maintained, and non-coherently processing DMRSs from the plurality of PDSCH communication for which phase continuity is determined not to be maintained. coherently processing DMRSs from the plurality of PDSCH communication for which phase continuity is determined to be maintained, and non-coherently processing DMRSs from the plurality of PDSCH communication for which phase continuity is determined not to be maintained. <EOS>
An electronic device , comprising: a housing , having a battery compartment arranged therein; a battery , mounted in the battery compartment and comprising a battery body and a wrapping film wrapped around a surface of the battery body , wherein the battery body has a first surface ; and an electrical connector , having at least a part located on the first surface , characterized in that the first surface has an expansion region (51a2) and a non-expansion region (51a1) surrounding a periphery of the expansion region (51a2); a distance between each edge of the expansion region (51a2) and a peripheral edge of the first surface adjacent to the respective edge of the expansion region (51a2) is d, and d is d = (0 . 5 * h + a) mm, wherein h is a thickness of the battery body and a is in a range of mm; and the part of the electrical connector located on the first surface does not overlap with the wrapping film in the expansion region (51a2). a housing , having a battery compartment arranged therein; a battery , mounted in the battery compartment and comprising a battery body and a wrapping film wrapped around a surface of the battery body , wherein the battery body has a first surface ; and an electrical connector , having at least a part located on the first surface , characterized in that the first surface has an expansion region (51a2) and a non-expansion region (51a1) surrounding a periphery of the expansion region (51a2); a distance between each edge of the expansion region (51a2) and a peripheral edge of the first surface adjacent to the respective edge of the expansion region (51a2) is d, and d is d = (0 . 5 * h + a) mm, wherein h is a thickness of the battery body and a is in a range of mm; and the part of the electrical connector located on the first surface does not overlap with the wrapping film in the expansion region (51a2). <EOS>
A tightening system for tightening an annular element to a central cylindrical body comprising a central cylindrical body , an annular element to be tightened to said central cylindrical body , a first annular groove formed circumferentially on an inner surface of said annular element , a second annular groove formed circumferentially on an outer surface of said central cylindrical body , interference means adapted to be inserted within said first and said second grooves, said first and said second grooves being able to be coupled to form a channel wherein said interference means can be inserted, characterized in that said first groove is eccentric to the rotational axis of symmetry of said annular element and said second groove is eccentric to the rotational axis of symmetry of said central cylindrical body , in such a way that in a first coupling configuration in phase between said annular element and said central cylindrical body , said channel presents a cross section, as measured in the radial direction with respect to the symmetry rotational axis , which is constant and uniform along the entire annular extent, and in a second coupling configuration which is rotated, and not in phase between said annular element and said central cylindrical body , said channel has a cross section which is not uniform and is variable along the annular extent. <EOS>
A hand machine tool comprising a tool and an electric motor for driving the tool , a housing , and a light module which is attached to the machine and which has at least one light source for illuminating a working region, wherein the light module is configured for a gesture control, wherein the machine comprises a programmable control unit which is configured to recognize gestures and to control the light module in dependence on recognized gestures, characterized in that the control unit is configured to recognize a single or multiple tapping or knocking at the outer side of the housing as a gesture for controlling the light module and thus for changing the state of the light source of the light module . a tool and an electric motor for driving the tool , a housing , and a light module which is attached to the machine and which has at least one light source for illuminating a working region, wherein the light module is configured for a gesture control, wherein the machine comprises a programmable control unit which is configured to recognize gestures and to control the light module in dependence on recognized gestures, characterized in that the control unit is configured to recognize a single or multiple tapping or knocking at the outer side of the housing as a gesture for controlling the light module and thus for changing the state of the light source of the light module . <EOS>
A device for reading and decoding paper or non-paper documents including micro-perforated patterns , in the form of micro-perforated characters or symbols, and graphic patterns , said device comprising - at least one image sensor having a light flashing component arranged to flash a visible light on a first side of a document , and image detectors arranged to read said visible light reflected or scattered by said graphic patterns ; - at least one further light flashing component located in front of said image sensor and arranged to flash an infrared light on a second side of the document ; said image detectors being arranged to read the infrared light passing through the micro-perforated patterns ; - a control circuit arranged to manage said image detectors to read said visible light reflected by said graphic patterns and said infrared light passing through the micro-perforated patterns , and to obtain bit-maps of the graphic and micro-perforated patterns read; characterized in that said control circuit is further arranged to decode the bit-maps of the micro-perforated patterns into symbols or characters and to send to an external computer only said decoded micro-perforated patterns, wherein said control circuit comprises - one A/D converter ; - one FPGA component ; and - one CPU arranged to control operation - of the A/D converter to convert analog signals coming from said at least one image sensor into digital signals; and - of the FPGA component to at least construct bit-maps of the micro-perforated patterns and of the graphic patterns . - at least one image sensor having a light flashing component arranged to flash a visible light on a first side of a document , and image detectors arranged to read said visible light reflected or scattered by said graphic patterns ; - at least one further light flashing component located in front of said image sensor and arranged to flash an infrared light on a second side of the document ; said image detectors being arranged to read the infrared light passing through the micro-perforated patterns ; - a control circuit arranged to manage said image detectors to read said visible light reflected by said graphic patterns and said infrared light passing through the micro-perforated patterns , and to obtain bit-maps of the graphic and micro-perforated patterns read; - one A/D converter ; - one FPGA component ; and - one CPU arranged to control operation - of the A/D converter to convert analog signals coming from said at least one image sensor into digital signals; and - of the FPGA component to at least construct bit-maps of the micro-perforated patterns and of the graphic patterns . - of the A/D converter to convert analog signals coming from said at least one image sensor into digital signals; and - of the FPGA component to at least construct bit-maps of the micro-perforated patterns and of the graphic patterns . <EOS>
A method to offload computations in a networked environment, the method comprising: detecting, by executing an instruction via a processor, an offload indicator in a web request received from a computing device, the web request triggered by processing of a webpage at the computing device; determining, by executing an instruction via the processor, a function identified in the web request, the function included in the webpage; retrieving, by executing an instruction via the processor, the function from the webpage; and transmitting a result of execution of the function to the computing device in response to the web request, the method characterised in that the processor is included in a mobile edge computing server and wherein retrieving the function includes retrieving the function from a storage of a web server that includes the processor. detecting, by executing an instruction via a processor, an offload indicator in a web request received from a computing device, the web request triggered by processing of a webpage at the computing device; determining, by executing an instruction via the processor, a function identified in the web request, the function included in the webpage; retrieving, by executing an instruction via the processor, the function from the webpage; and transmitting a result of execution of the function to the computing device in response to the web request, the method characterised in that the processor is included in a mobile edge computing server and wherein retrieving the function includes retrieving the function from a storage of a web server that includes the processor. <EOS>
An antimicrobial composition, comprising a cationic polymer having a poly-allylamine backbone, wherein 65% to 85% of the poly-allylamine backbone is functionalized with a guanidine functional group and optionally further functionalized with a biguanide functional group. <EOS>
A catalyst for producing at least one of an unsaturated aldehyde compound, an unsaturated carboxylic acid compound, and a conjugated diene comprising molybdenum; bismuth; and cobalt, wherein a composition of a catalytically active component is represented by the following formula (I-1): Mo a1 Bi b1 Ni c1 Co d1 Fe e1 X f1 Y g1 Z h1 O i1 ... (I-1) wherein in the formula, Mo, Bi, Ni, Co and Fe represent molybdenum, bismuth, nickel, cobalt and iron, respectively; X is at least one element selected from tungsten, antimony, tin, zinc, chromium, manganese, magnesium, silicon, aluminum, cerium and titanium; Y is at least one element selected from sodium, potassium, cesium, rubidium, and thallium; Z belongs to the 1st to 16th groups in the periodic table and means at least one element selected from elements other than the above Mo, Bi, Ni, Co, Fe, X, and Y; a1, b1, c1, d1, e1, f1, g1, h1, and i1 represent the number of atoms of molybdenum, bismuth, nickel, cobalt, iron, X, Y, Z, and oxygen, respectively; when a1 = 12, 0 < b1 ≤ 7, 0 ≤ c1 ≤ 10, 0< d1 ≤ 6.3, 0 < c1 + d1 ≤ 20, 0 ≤ e1 ≤ 5, 0 ≤ f1 ≤ 2, 0 ≤ g1 ≤ 3, 0 ≤ h1 ≤ 5, and i1 is a value determined by an oxidation state of each element, and wherein a sum (S) of ratios of peak intensities expressed by the following formula in an X-ray diffraction pattern obtained by using CuKα rays as an X-ray source is 42 or more and 95 or less. S = {(peak intensity at 2θ = 14.1° ± 0.1°) + (peak intensity at 2θ = 25.4° ± 0.1°) + (peak intensity at 2θ = 28.5° ± 0.1°)}/(peak intensity at 2θ = 26.5° ± 0.1°) × 100 molybdenum; bismuth; and cobalt, wherein a composition of a catalytically active component is represented by the following formula (I-1): Mo a1 Bi b1 Ni c1 Co d1 Fe e1 X f1 Y g1 Z h1 O i1 ... (I-1) wherein in the formula, Mo, Bi, Ni, Co and Fe represent molybdenum, bismuth, nickel, cobalt and iron, respectively; X is at least one element selected from tungsten, antimony, tin, zinc, chromium, manganese, magnesium, silicon, aluminum, cerium and titanium; Y is at least one element selected from sodium, potassium, cesium, rubidium, and thallium; Z belongs to the 1st to 16th groups in the periodic table and means at least one element selected from elements other than the above Mo, Bi, Ni, Co, Fe, X, and Y; a1, b1, c1, d1, e1, f1, g1, h1, and i1 represent the number of atoms of molybdenum, bismuth, nickel, cobalt, iron, X, Y, Z, and oxygen, respectively; when a1 = 12, 0 < b1 ≤ 7, 0 ≤ c1 ≤ 10, 0< d1 ≤ 6.3, 0 < c1 + d1 ≤ 20, 0 ≤ e1 ≤ 5, 0 ≤ f1 ≤ 2, 0 ≤ g1 ≤ 3, 0 ≤ h1 ≤ 5, and i1 is a value determined by an oxidation state of each element, and wherein a sum (S) of ratios of peak intensities expressed by the following formula in an X-ray diffraction pattern obtained by using CuKα rays as an X-ray source is 42 or more and 95 or less. S = {(peak intensity at 2θ = 14.1° ± 0.1°) + (peak intensity at 2θ = 25.4° ± 0.1°) + (peak intensity at 2θ = 28.5° ± 0.1°)}/(peak intensity at 2θ = 26.5° ± 0.1°) × 100 <EOS>
A method of ground vibration testing of an aircraft , wherein the aircraft has a plurality of landing gear , the method comprising the steps of: engaging the aircraft with a plurality of measurement devices , each one of the measurement devices being coupled to at least one lifting mechanism engaged to a jack point on one of the landing gear of the aircraft via a lifting beam , wherein each of the measurement devices has a compression load cell interposed between the jack point and the lifting beam by engaging a jack fitting to the jack point , inserting a shaft of the jack fitting through an opening in the load cell , receiving the shaft in a bearing block mounted to the lifting beam and interposing the load cell between the jack fitting and the lifting beam ; lifting the aircraft off of a supporting surface using the lifting mechanisms ; determining a weight of the lifted aircraft based on outputs of the measurement devices ; and performing ground vibration testing of the lifted aircraft ; the method further comprising the steps of: determining the weight measurement at each one of the landing gear ; determining a center of gravity of the aircraft , the center of gravity of the aircraft based on the weight measurement at each one of the landing gear . engaging the aircraft with a plurality of measurement devices , each one of the measurement devices being coupled to at least one lifting mechanism engaged to a jack point on one of the landing gear of the aircraft via a lifting beam , wherein each of the measurement devices has a compression load cell interposed between the jack point and the lifting beam by engaging a jack fitting to the jack point , inserting a shaft of the jack fitting through an opening in the load cell , receiving the shaft in a bearing block mounted to the lifting beam and interposing the load cell between the jack fitting and the lifting beam ; lifting the aircraft off of a supporting surface using the lifting mechanisms ; determining a weight of the lifted aircraft based on outputs of the measurement devices ; and performing ground vibration testing of the lifted aircraft ; the method further comprising the steps of: determining the weight measurement at each one of the landing gear ; determining a center of gravity of the aircraft , the center of gravity of the aircraft based on the weight measurement at each one of the landing gear . determining the weight measurement at each one of the landing gear ; determining a center of gravity of the aircraft , the center of gravity of the aircraft based on the weight measurement at each one of the landing gear . <EOS>
A two-component composition for making a waterproofing membrane comprising as one component A) one or more aqueous emulsion copolymer having a residual (meth)acrylamide content of less than 40 ppm, and, as a separate component B), a fast curing dry mix powder composition of a hydraulic cement and a high alumina content cement, wherein at least one of the one or more aqueous emulsion copolymers in component A) is the copolymerization product of (i) from 60 to 89.9 wt.% of one or more nonionic (meth)acrylic monomers, (ii) from 10 to 40 wt.% of one or more vinyl aromatic monomers, (iii) from 0.1 to 3 wt.% of one or more monomers chosen from, amides of a,β-unsaturated C 3 to C 6 carboxylic acids and mixtures thereof with itaconic acid or methacrylic acid, all wt.%s of monomers based on the total monomer solids used to make the aqueous emulsion copolymer, wherein after the copolymerization, t-butyl hydroperoxide and a reducing agent are charged into the aqueous emulsion copolymer and, then an ascorbic acid reducing agent is fed into the composition, and the aqueous emulsion copolymer has a residue of an ascorbic acid reducing agent and a residue of t-butyl hydroperoxide, wherein, the mole ratio of t-butyl hydroperoxide to ascorbic acid reducing agent that are charged into the aqueous emulsion copolymer ranges from greater than 1.0:1 to 3.0:1. <EOS>
A flow control clamp 30 comprising: a flexible body comprising a central portion 35 and first and second legs 36, 38 extending from said central portion 35, said legs disposed relative to each other in a general facing relationship, leg 38 including first and second lateral arms 104 extending from respective sides thereof; said body including a pair of apertures 40, 44 for receiving flexible tubing therethrough wherein one of said apertures 40, 44 is disposed in said central portion 35 and the other of said apertures 40, 44 is disposed in at least one of said legs 36, 38; wherein said legs 36, 38 are movable from a first open spaced apart position to a second closed irreversibly locked position; at least one tube contacting member 48. 50 carried by one of said legs 36, 38 for compressing a tube 43 when said legs 36, 38 are in the closed position; first and second locking mechanisms comprising interengaging locking structures associated with said legs 36, 38, wherein said interengaging locking structures are irreversibly engaged when said legs 36, 38 are in the closed position, said interengaging locking structures of said first locking mechanism comprising first and second interengaging arms , and each interengaging arm comprising an engaging member to irreversibly lock the first locking mechanism when in the closed position; said interengaging locking structures of said second locking mechanism comprises a first engaging member 100 on said arms 104 associated with leg 38 and a second engaging member 102 associated with leg 36; wherein said first locking mechanism is positioned farther from said central portion than said second locking mechanism. a flexible body comprising a central portion 35 and first and second legs 36, 38 extending from said central portion 35, said legs disposed relative to each other in a general facing relationship, leg 38 including first and second lateral arms 104 extending from respective sides thereof; said body including a pair of apertures 40, 44 for receiving flexible tubing therethrough wherein one of said apertures 40, 44 is disposed in said central portion 35 and the other of said apertures 40, 44 is disposed in at least one of said legs 36, 38; wherein said legs 36, 38 are movable from a first open spaced apart position to a second closed irreversibly locked position; at least one tube contacting member 48. 50 carried by one of said legs 36, 38 for compressing a tube 43 when said legs 36, 38 are in the closed position; first and second locking mechanisms comprising interengaging locking structures associated with said legs 36, 38, wherein said interengaging locking structures are irreversibly engaged when said legs 36, 38 are in the closed position, said interengaging locking structures of said first locking mechanism comprising first and second interengaging arms , and each interengaging arm comprising an engaging member to irreversibly lock the first locking mechanism when in the closed position; said interengaging locking structures of said second locking mechanism comprises a first engaging member 100 on said arms 104 associated with leg 38 and a second engaging member 102 associated with leg 36; wherein said first locking mechanism is positioned farther from said central portion than said second locking mechanism. <EOS>
Combination device, which comprises a hob with at least one cooking module , at least one extractor device with at least one fan with at least one intake opening and at least one air inlet opening for the extractor device , wherein the air inlet opening is arranged in a cutout of the hob , wherein the cutout is arranged in the centre of the width of the hob and extends in the depth direction of the hob , and the at least one fan is located below the at least one cooking module of the hob , wherein the combination device has at least one grease filter and at least one odour filter , which are arranged between the air inlet opening and the at least one fan , characterised in that a filter support is introduced into the cutout , in which filter support the at least one grease filter is held in the vertical or is arranged inclined with respect to the vertical, the at least one odour filter is located in the flow direction downstream of the at least one grease filter and adjacent to the grease filter and parallel to the grease filter and the surface centres of the grease filter , of the odour filter and the intake opening are located on a horizontal plane. <EOS>
A method for receiving identity information for a mobile communication device , the method comprising: establishing a secure wireless communication link between the mobile communication device and an identity server , wherein an application on the mobile communication device is configured to use a cellular radio transceiver of the mobile communication device to establish the secure wireless communication link and is further configured to retrieve, for a single memory module on the mobile communication device, identity information from the identity server over the secure wireless communication link, wherein the identity information is a device identifier and an authentication key; receiving, by the single memory module on the mobile communication device, over the secure wireless communication link , at least one instance of the identity information ; and replacing identity information that had previously been provided to the memory module with the received identity information, wherein the memory module is one of a subscriber identity module, SIM, a universal integrated circuit card, UICC, a universal subscriber identity module, USIM, or a removable identity module, R-UIM; wherein the secure wireless communication link restricts the application to accessing only the identity server within a secure network and the only information the application is allowed to retrieve over the secure wireless communication link is the device identifier and the authentication key. establishing a secure wireless communication link between the mobile communication device and an identity server , wherein an application on the mobile communication device is configured to use a cellular radio transceiver of the mobile communication device to establish the secure wireless communication link and is further configured to retrieve, for a single memory module on the mobile communication device, identity information from the identity server over the secure wireless communication link, wherein the identity information is a device identifier and an authentication key; receiving, by the single memory module on the mobile communication device, over the secure wireless communication link , at least one instance of the identity information ; and replacing identity information that had previously been provided to the memory module with the received identity information, wherein the memory module is one of a subscriber identity module, SIM, a universal integrated circuit card, UICC, a universal subscriber identity module, USIM, or a removable identity module, R-UIM; wherein the secure wireless communication link restricts the application to accessing only the identity server within a secure network and the only information the application is allowed to retrieve over the secure wireless communication link is the device identifier and the authentication key. <EOS>
A method of coding video data, the method comprising: determining an intra prediction mode for a chroma prediction unit of a chroma block of the video data based on an intra prediction mode of a luma prediction unit in a corresponding luma block , wherein the partitioning of the corresponding luma block into luma prediction units is determined using a first tree structure that is separate from a second tree structure that determines the partitioning of the chroma block into chroma predictions units, the first and second tree structures being quad-tree-binary-tree structures, and coding the chroma prediction unit according to the determined intra prediction mode; characterized in that the step of determining an intra prediction mode for a chroma prediction unit of a chroma block based on an intra prediction mode of a luma prediction unit in a corresponding luma block comprises: determining one of a plurality of luma prediction units of the corresponding luma block that is located at a position corresponding to a center position of the luma block corresponding to the chroma block, wherein the center position is defined according to a coordinate tuple including an x coordinate defined using twice the horizontal offset of the chroma block and a y coordinate defined using twice the vertical offset of the chroma block, wherein the coordinate tuple is based on the width W and height H of the chroma block such that the determined one of the plurality of luma prediction units is at the center position having the coordinate tuple 2x + W-1, 2y + H-1; and deriving a derived mode, DM, for the chroma mode from a luma mode associated with the luma prediction unit located at the center position of the corresponding luma block partition; wherein the video data are in the 4:2:0 color format. determining an intra prediction mode for a chroma prediction unit of a chroma block of the video data based on an intra prediction mode of a luma prediction unit in a corresponding luma block , wherein the partitioning of the corresponding luma block into luma prediction units is determined using a first tree structure that is separate from a second tree structure that determines the partitioning of the chroma block into chroma predictions units, the first and second tree structures being quad-tree-binary-tree structures, and coding the chroma prediction unit according to the determined intra prediction mode; characterized in that the step of determining an intra prediction mode for a chroma prediction unit of a chroma block based on an intra prediction mode of a luma prediction unit in a corresponding luma block comprises: determining one of a plurality of luma prediction units of the corresponding luma block that is located at a position corresponding to a center position of the luma block corresponding to the chroma block, wherein the center position is defined according to a coordinate tuple including an x coordinate defined using twice the horizontal offset of the chroma block and a y coordinate defined using twice the vertical offset of the chroma block, wherein the coordinate tuple is based on the width W and height H of the chroma block such that the determined one of the plurality of luma prediction units is at the center position having the coordinate tuple 2x + W-1, 2y + H-1; and deriving a derived mode, DM, for the chroma mode from a luma mode associated with the luma prediction unit located at the center position of the corresponding luma block partition; wherein the video data are in the 4:2:0 color format. deriving a derived mode, DM, for the chroma mode from a luma mode associated with the luma prediction unit located at the center position of the corresponding luma block partition; wherein the video data are in the 4:2:0 color format. <EOS>
A method for reducing memory I/O power of a DRAM memory device coupled to a memory controller via a plurality of data, DQ, pins, the method characterized by determining a type of the DRAM memory device and a DQ pin termination scheme associated with the type of the DRAM memory device ; selecting , based on the DQ pin termination scheme, a DQ pin state from a plurality of DQ pin states for reducing memory I/O power associated with the DRAM memory device during a data masking operation; wherein the plurality of DQ pin states comprises a hold last state, a hold low state, a hold high state, and a tri-state; enabling the data masking operation; and driving the DQ pins to the selected DQ pin state during the data masking operation. <EOS>
A solar energy system for heating a target fluid using incident solar radiation , the system comprising: a protective upper layer ; a target fluid layer comprising the target fluid ; a light transmissive inter-fluidic dividing layer ; a working fluid layer comprising a working fluid ; and a lower retaining layer , wherein the light-transmissive inter-fluidic dividing layer enables each of the fluids to absorb incident solar radiation ; and wherein both the target fluid and the working fluid are liquids; wherein the working fluid is arranged to absorb light strongly in the visible spectrum, and re-radiate the absorbed energy in the infrared part of the spectrum to be absorbed by the target fluid , wherein the target fluid has a lower absorbency than the working fluid in the visible part of the spectrum; and wherein incoming solar radiation passes through the target fluid prior to passing into the working fluid . a protective upper layer ; a target fluid layer comprising the target fluid ; a light transmissive inter-fluidic dividing layer ; a working fluid layer comprising a working fluid ; and a lower retaining layer , wherein the light-transmissive inter-fluidic dividing layer enables each of the fluids to absorb incident solar radiation ; and wherein both the target fluid and the working fluid are liquids; wherein the working fluid is arranged to absorb light strongly in the visible spectrum, and re-radiate the absorbed energy in the infrared part of the spectrum to be absorbed by the target fluid , wherein the target fluid has a lower absorbency than the working fluid in the visible part of the spectrum; and wherein incoming solar radiation passes through the target fluid prior to passing into the working fluid . <EOS>
Electric safety braking device which is intended for an electric traction vehicle, in particular a rail vehicle comprising: a rotating electromechanical machine having permanent magnets with electric terminals , a resistive braking torque production device , an electromechanical commutator which is capable of reliably connecting the electric terminals of the machine to the braking torque production device , characterised in that the resistive braking torque production device comprises, on the one hand, a bipolar assembly of at least one dissipative resistor, the assembly having two single connection terminals and forming a common terminal bipolar electric output load for all the terminals of the machine and, on the other hand, means for converting the currents from all the terminals into a single current which is supplied to the two single terminals of the bipolar assembly , the conversion means having no active power switches, the conversion means being constituted by a diode bridge rectifier which is interposed between the electromechanical commutator and the bipolar assembly of at least one dissipative resistor , the dissipative resistor being connected between two single outputs of the diode bridge rectifier. a rotating electromechanical machine having permanent magnets with electric terminals , a resistive braking torque production device , an electromechanical commutator which is capable of reliably connecting the electric terminals of the machine to the braking torque production device , characterised in that the resistive braking torque production device comprises, on the one hand, a bipolar assembly of at least one dissipative resistor, the assembly having two single connection terminals and forming a common terminal bipolar electric output load for all the terminals of the machine and, on the other hand, means for converting the currents from all the terminals into a single current which is supplied to the two single terminals of the bipolar assembly , the conversion means having no active power switches, the conversion means being constituted by a diode bridge rectifier which is interposed between the electromechanical commutator and the bipolar assembly of at least one dissipative resistor , the dissipative resistor being connected between two single outputs of the diode bridge rectifier. <EOS>
An oral care composition comprising: a. at least 5%, more preferably at least 7.5%, more preferably at least 10%, by weight of the composition, fatty amphiphile, wherein the fatty amphiphile comprises a fatty alcohol selected from the group consisting of cetyl alcohol, stearyl alcohol, and combinations thereof; b. one or more actives including stannous fluoride, peroxide or potassium nitrate; c. from 1.5% to about 3%, by weight of the composition, total flavor components; wherein the flavor component comprises at least 14%, preferably at least 20%, more preferred at least 25%, and more preferred at least 30% by weight of the flavor components, of one or more high displaying flavor components; wherein the high displaying flavor components are selected from the group consisting of ethyl methyl butyrate, isoamyl acetate, alpha-pinene, sabinene, beta-pinene, myrcene, alpha-terpinene, beta-phellandrene, cis-ocimene, trans-ocimene, terpineolene, g-terpinene, melonal, dihydroanethole, isomenthone, menthone, peppermint cyclohexanone, cyclohexyl ethyl acetate, tetrahydrocarvone, d-dihydrocarvone, sabinene hydrate, trans anethole, and combinations thereof. a. at least 5%, more preferably at least 7.5%, more preferably at least 10%, by weight of the composition, fatty amphiphile, wherein the fatty amphiphile comprises a fatty alcohol selected from the group consisting of cetyl alcohol, stearyl alcohol, and combinations thereof; b. one or more actives including stannous fluoride, peroxide or potassium nitrate; c. from 1.5% to about 3%, by weight of the composition, total flavor components; wherein the flavor component comprises at least 14%, preferably at least 20%, more preferred at least 25%, and more preferred at least 30% by weight of the flavor components, of one or more high displaying flavor components; wherein the high displaying flavor components are selected from the group consisting of ethyl methyl butyrate, isoamyl acetate, alpha-pinene, sabinene, beta-pinene, myrcene, alpha-terpinene, beta-phellandrene, cis-ocimene, trans-ocimene, terpineolene, g-terpinene, melonal, dihydroanethole, isomenthone, menthone, peppermint cyclohexanone, cyclohexyl ethyl acetate, tetrahydrocarvone, d-dihydrocarvone, sabinene hydrate, trans anethole, and combinations thereof. <EOS>
Method for producing an assembly for a line feedthrough, comprising the following steps: a) a fire protection mat which forms a fire protection module is cut correspondingly to the size of the line feedthrough, the fire protection mat having a flexible carrier element , to the at least one end region of which an, in particular continuous, fire protection wrap made of an intumescent material is attached, b) the fire protection mat is rounded, and the opposing edges of the fire protection mat are interconnected via a connecting means, such that the fire protection wrap is in a region of an axial end of the rounded fire protection mat , and c) at least one mechanical positioning element formed separately from the fire protection mat is attached to the fire protection mat , which mechanical positioning element is designed such that the assembly can be attached to a wall or a formwork via the mechanical positioning element , characterized in that the fire protection wrap is arranged on an edge of the carrier element and extends transversely to this edge over a maximum of 20% of the length (L) of the carrier element . a) a fire protection mat which forms a fire protection module is cut correspondingly to the size of the line feedthrough, the fire protection mat having a flexible carrier element , to the at least one end region of which an, in particular continuous, fire protection wrap made of an intumescent material is attached, b) the fire protection mat is rounded, and the opposing edges of the fire protection mat are interconnected via a connecting means, such that the fire protection wrap is in a region of an axial end of the rounded fire protection mat , and c) at least one mechanical positioning element formed separately from the fire protection mat is attached to the fire protection mat , which mechanical positioning element is designed such that the assembly can be attached to a wall or a formwork via the mechanical positioning element , <EOS>
A flight vehicle which has an antenna for forming a wireless communication area by irradiating beam towards a ground to provide a wireless communication service to a user terminal in the wireless communication area, the flight vehicle comprising: an FL communication unit arranged to communicate with a core network on the ground via a feeder link; a UP execution unit which executes a user plane function; and a communication control unit which performs control whereby communication between a first user terminal in the wireless communication area and a second user terminal in another wireless communication area of another flight vehicle is relayed without intermediation of the core network by the user plane function of the flight vehicle, characterized in that the flight vehicle comprises: a base station unit arranged to execute a base station function; and a switch unit connected to the base station unit , the UP execution unit , and the FL communication unit , wherein the communication control unit is arranged to control the switch unit whereby aclosed area networ corresponding to an organization to which the first user terminal and the second user terminal belong is constructed between the first user terminal in the wireless communication area and the second user terminal in an other wireless communication area of the other flight vehicle. an FL communication unit arranged to communicate with a core network on the ground via a feeder link; a UP execution unit which executes a user plane function; and a communication control unit which performs control whereby communication between a first user terminal in the wireless communication area and a second user terminal in another wireless communication area of another flight vehicle is relayed without intermediation of the core network by the user plane function of the flight vehicle, characterized in that the flight vehicle comprises: a base station unit arranged to execute a base station function; and a switch unit connected to the base station unit , the UP execution unit , and the FL communication unit , wherein the communication control unit is arranged to control the switch unit whereby aclosed area networ corresponding to an organization to which the first user terminal and the second user terminal belong is constructed between the first user terminal in the wireless communication area and the second user terminal in an other wireless communication area of the other flight vehicle. a base station unit arranged to execute a base station function; and a switch unit connected to the base station unit , the UP execution unit , and the FL communication unit , wherein the communication control unit is arranged to control the switch unit whereby aclosed area networ corresponding to an organization to which the first user terminal and the second user terminal belong is constructed between the first user terminal in the wireless communication area and the second user terminal in an other wireless communication area of the other flight vehicle. <EOS>
Headrest body for a headrest , configured as at least one frame (1.1) having one or a plurality of inner flexible support elements (1.4) forming a support surface (1.3), and a headrest holder (1.2) protruding from the frame (1.1), wherein the headrest body , composed of the frame (1.1), the support elements (1.4) and the headrest holder (1.2), by shaping is formed integrally from a plastics material or a composite material. configured as at least one frame (1.1) having one or a plurality of inner flexible support elements (1.4) forming a support surface (1.3), and a headrest holder (1.2) protruding from the frame (1.1), wherein the headrest body , composed of the frame (1.1), the support elements (1.4) and the headrest holder (1.2), by shaping is formed integrally from a plastics material or a composite material. <EOS>
Method for producing a structure by means of a cold gas spraying method, comprising the steps: - providing a carrier with a carrier surface , to which the structure can be attached by means of the cold gas spraying method by following a travel path , - providing an element with an element surface that is different from the carrier surface , wherein the element is arranged in the travel path and/or the travel path is specified such that intersections (X10) of the travel path and/or interruptions of the structure are arranged on the element surface . - providing a carrier with a carrier surface , to which the structure can be attached by means of the cold gas spraying method by following a travel path , - providing an element with an element surface that is different from the carrier surface , wherein the element is arranged in the travel path and/or the travel path is specified such that intersections (X10) of the travel path and/or interruptions of the structure are arranged on the element surface . <EOS>
A method for preparing a heat treated whey protein concentrate (WPC) or whey protein isolate (WPI), comprising: (a) providing an aqueous WPC or WPI solution having a protein concentration of 15-50% (w/v), at a pH of 4.7-8.5; (b) heat treating the solution to a temperature of from 50°C to 150°C, for a time that allows protein denaturation to occur; the heat treating comprising heating the solution in a heating tube while under conditions of turbulent flow, wherein turbulent flow is defined as having a sufficient mass flow rate in the heating tube to provide a Reynolds number in excess of 500; (c) at the end of the heat treatment, either (d1) transferring the heat treated material directly to a drier; and drying the heat-treated WPC or WPI to produce a dried modified WPC or WPI, wherein the heat-treated WPC or WPI is not subjected to a mechanical shear process to break up particles within the solution prior to drying other than where liquid is converted into droplets to facilitate drying; or (d2) directly transferring the heat treated material to a mixer to be mixed with other ingredients; and wherein the heat treated WPC or WPI is not subjected to particle size reduction prior to step (c). (a) providing an aqueous WPC or WPI solution having a protein concentration of 15-50% (w/v), at a pH of 4.7-8.5; (b) heat treating the solution to a temperature of from 50°C to 150°C, for a time that allows protein denaturation to occur; the heat treating comprising heating the solution in a heating tube while under conditions of turbulent flow, wherein turbulent flow is defined as having a sufficient mass flow rate in the heating tube to provide a Reynolds number in excess of 500; (c) at the end of the heat treatment, either (d1) transferring the heat treated material directly to a drier; and drying the heat-treated WPC or WPI to produce a dried modified WPC or WPI, wherein the heat-treated WPC or WPI is not subjected to a mechanical shear process to break up particles within the solution prior to drying other than where liquid is converted into droplets to facilitate drying; or (d2) directly transferring the heat treated material to a mixer to be mixed with other ingredients; and wherein the heat treated WPC or WPI is not subjected to particle size reduction prior to step (c). (d1) transferring the heat treated material directly to a drier; and drying the heat-treated WPC or WPI to produce a dried modified WPC or WPI, wherein the heat-treated WPC or WPI is not subjected to a mechanical shear process to break up particles within the solution prior to drying other than where liquid is converted into droplets to facilitate drying; or (d2) directly transferring the heat treated material to a mixer to be mixed with other ingredients; and wherein the heat treated WPC or WPI is not subjected to particle size reduction prior to step (c). <EOS>
A non-aqueous, emulsifiable and pourable concentrate formulation, that is able to form an emulsion when diluted into water and mixed by inversion of the vial comprising: (a)at least one non-ionic surfactant chosen from sorbitol derivatives, fatty alcohol ethoxylates, fatty acid ethoxylates and mixtures thereof; (b)at least one alkyl-benzene sulfonate surfactant as anionic surfactant; (c)a liquid medium wholly or partly formed from at least one vegetable oil alkyl ester or mixtures thereof; (d)at least 4% by weight of at least one phyllosilicate as thickener relative to the total weight of the composition; and (e)at least one activator of said phyllosilicate, chosen amongst methanol, ethanol, acetone, methylethylketone and propylene carbonate. (a)at least one non-ionic surfactant chosen from sorbitol derivatives, fatty alcohol ethoxylates, fatty acid ethoxylates and mixtures thereof; (b)at least one alkyl-benzene sulfonate surfactant as anionic surfactant; (c)a liquid medium wholly or partly formed from at least one vegetable oil alkyl ester or mixtures thereof; (d)at least 4% by weight of at least one phyllosilicate as thickener relative to the total weight of the composition; and (e)at least one activator of said phyllosilicate, chosen amongst methanol, ethanol, acetone, methylethylketone and propylene carbonate. <EOS>
Motor vehicle , having a driver's compartment and having a partition wall that delimits the rear side of the driver's compartment and is a least partly formed from an elastic plane element in such a way that, if a seat in the driver's compartment is shifted back, the seat is pushed at least partly into the partition wall , characterised in that the motor vehicle is designed as a burial vehicle and incorporates a coffin space that is arranged behind the driver's compartment and that the seat can be shifted in such a way that it can come into contact with the partition wall , where the partition wall there is formed from an elastic plane element, where the seat is pushed into the partition wall and comes into contact with the partition wall . having a driver's compartment and having a partition wall that delimits the rear side of the driver's compartment and is a least partly formed from an elastic plane element in such a way that, if a seat in the driver's compartment is shifted back, the seat is pushed at least partly into the partition wall , characterised in that the motor vehicle is designed as a burial vehicle and incorporates a coffin space that is arranged behind the driver's compartment and that the seat can be shifted in such a way that it can come into contact with the partition wall , where the partition wall there is formed from an elastic plane element, where the seat is pushed into the partition wall and comes into contact with the partition wall . <EOS>
A pneumatic tire comprising: a tread ; and a belt , wherein the belt is disposed radially inward of the tread , the belt includes a plurality of belt plies layered in a radial direction, each of the belt plies includes multiple steel belt cords and a topping rubber, the belt cords are covered by the topping rubber , each of the belt cords includes a twisted string obtained by twisting together four filaments , the belt cord has an elliptical cross-section, on the elliptical cross-section, a minor axis (AS) of the cross-section extends in a thickness direction of the belt ply , a ratio of a length (LS) of the minor axis (AS) to a length (LL) of a major axis (AL) of the cross-section is greater than or equal to 0.67 and not greater than 0.94, the four filaments are a first filament , a second filament , a third filament , and a fourth filament arranged in clockwise order, respectively, the first filament and the third filament are disposed along the minor axis (AS), and the first filament is in contact with the second filament or the fourth filament , the third filament is in contact with the second filament or the fourth filament , the first filament and the third filament are each in contact with the second filament and the fourth filament , or the first filament is in contact with the third filament , characterized in that a thickness (t) of the topping rubber 44 that corresponds to a length from an outer surface of the belt ply to an outer surface of the belt cord along the minor axis (AS) of the belt cord is greater than or equal to 0.20 mm and not greater than 0.30 mm and a thickness (ta) of each belt ply is greater than or equal to 1.30 mm and not greater than 1.55 mm, and an outer diameter (RF) of each filament is greater than or equal to 0.41 mm and not greater than 0.43 mm. a tread ; and a belt , wherein the belt is disposed radially inward of the tread , the belt includes a plurality of belt plies layered in a radial direction, each of the belt plies includes multiple steel belt cords and a topping rubber, the belt cords are covered by the topping rubber , each of the belt cords includes a twisted string obtained by twisting together four filaments , the belt cord has an elliptical cross-section, on the elliptical cross-section, a minor axis (AS) of the cross-section extends in a thickness direction of the belt ply , a ratio of a length (LS) of the minor axis (AS) to a length (LL) of a major axis (AL) of the cross-section is greater than or equal to 0.67 and not greater than 0.94, the four filaments are a first filament , a second filament , a third filament , and a fourth filament arranged in clockwise order, respectively, the first filament and the third filament are disposed along the minor axis (AS), and the first filament is in contact with the second filament or the fourth filament , the third filament is in contact with the second filament or the fourth filament , the first filament and the third filament are each in contact with the second filament and the fourth filament , or the first filament is in contact with the third filament , characterized in that a thickness (t) of the topping rubber 44 that corresponds to a length from an outer surface of the belt ply to an outer surface of the belt cord along the minor axis (AS) of the belt cord is greater than or equal to 0.20 mm and not greater than 0.30 mm and a thickness (ta) of each belt ply is greater than or equal to 1.30 mm and not greater than 1.55 mm, and an outer diameter (RF) of each filament is greater than or equal to 0.41 mm and not greater than 0.43 mm. <EOS>
A shovel comprising: a lower traveling body ; an upper turning body turnably mounted on the lower traveling body ; an attachment attached to the upper turning body ; a cab provided on the upper turning body ; a space recognition device (S7) attached to the upper turning body or attached to an inside of the cab , and configured to detect an object; and a communications device (T1) attached to the upper turning body , characterized by a control device mounted on the upper turning body and capable of executing automatic control to move a working part of the attachment along an intended trajectory according to an operation of an operating apparatus , wherein the control device is configured to stop the automatic control when the operation of the operating apparatus shows a tendency different from a tendency of an operation according to the automatic control or when an output of at least one of the space recognition device (S7) and the communications device (T1) shows a state different from a normal state, during the automatic control. a lower traveling body ; an upper turning body turnably mounted on the lower traveling body ; an attachment attached to the upper turning body ; a cab provided on the upper turning body ; a space recognition device (S7) attached to the upper turning body or attached to an inside of the cab , and configured to detect an object; and a communications device (T1) attached to the upper turning body , a control device mounted on the upper turning body and capable of executing automatic control to move a working part of the attachment along an intended trajectory according to an operation of an operating apparatus , wherein the control device is configured to stop the automatic control when the operation of the operating apparatus shows a tendency different from a tendency of an operation according to the automatic control or when an output of at least one of the space recognition device (S7) and the communications device (T1) shows a state different from a normal state, during the automatic control. <EOS>
An antibody that binds to the p19 subunit of human IL-23 comprising a light chain and a heavy chain, wherein the light chain comprises a light chain variable region (LCVR) and the heavy chain comprises a heavy chain variable region (HCVR), wherein the amino acid sequence of the LCVR is SEQ ID NO: 8 and the amino acid sequence of the HCVR is SEQ ID NO: 7. <EOS>
A method for protecting an electronic device using a device protection server and a credential protection server, the method comprising, at the electronic device: receiving, from the credential protection server, a first suspension token and an associated first credential for a first user associated with a first user identifier; storing the first suspension token and the associated first credential; receiving, from the credential protection server, a second suspension token and an associated second credential for a second user associated with a second user identifier; storing the second suspension token and the associated second credential; and transmitting, to the device protection server, device suspension data, the device suspension data comprising: the first suspension token, the second suspension token, a device identifier of the electronic device, and the second user identifier. receiving, from the credential protection server, a first suspension token and an associated first credential for a first user associated with a first user identifier; storing the first suspension token and the associated first credential; receiving, from the credential protection server, a second suspension token and an associated second credential for a second user associated with a second user identifier; storing the second suspension token and the associated second credential; and transmitting, to the device protection server, device suspension data, the device suspension data comprising: the first suspension token, the second suspension token, a device identifier of the electronic device, and the second user identifier. <EOS>
A method by an over-the-air, OTA, update server , the method comprising: Determining, by the OTA update server , whether an operator of a vehicle is in close proximity to the vehicle ; in response to determining, by the OTA update server , that the operator is in close proximity to the vehicle , sending, by the OTA update server , a request to an operator terminal used by the operator requesting a confirmation by the operator for proceeding with completing a firmware update for an electronic control unit, ECU, deployed on the vehicle ; and in response to receiving, at the OTA update server , the confirmation for proceeding with completing the firmware update, sending, by the OTA update server , a request to a telematics device coupled to the vehicle to complete the firmware update; wherein determining that the operator of the vehicle is in close proximity to the vehicle comprises receiving an indication from the telematics device of a near-field communications, NFC, tap of an NFC tag with an NFC module on the telematics device by the operator within a prior period of time to identify themself as the operator of the vehicle . Determining, by the OTA update server , whether an operator of a vehicle is in close proximity to the vehicle ; in response to determining, by the OTA update server , that the operator is in close proximity to the vehicle , sending, by the OTA update server , a request to an operator terminal used by the operator requesting a confirmation by the operator for proceeding with completing a firmware update for an electronic control unit, ECU, deployed on the vehicle ; and in response to receiving, at the OTA update server , the confirmation for proceeding with completing the firmware update, sending, by the OTA update server , a request to a telematics device coupled to the vehicle to complete the firmware update; wherein determining that the operator of the vehicle is in close proximity to the vehicle comprises receiving an indication from the telematics device of a near-field communications, NFC, tap of an NFC tag with an NFC module on the telematics device by the operator within a prior period of time to identify themself as the operator of the vehicle . <EOS>
A system for receiving, transferring, and storing solar thermal energy, comprising: a concentrating solar energy collector ; a light transfer conduit ; a thermal storage material ; and an insulated container , the insulated container containing the thermal storage material , the light transfer conduit being configured to transfer solar energy collected by the solar energy collector to the thermal storage material through a wall of the insulated container, wherein the light transfer conduit includes: an input port receiving the solar energy; an exit port proximal to the thermal storage material, and wherein the light transfer conduit is configured to transmit the solar energy substantially losslessly and to radiate the solar energy into the thermal storage material via the exit port . a concentrating solar energy collector ; a light transfer conduit ; a thermal storage material ; and an insulated container , the insulated container containing the thermal storage material , the light transfer conduit being configured to transfer solar energy collected by the solar energy collector to the thermal storage material through a wall of the insulated container, wherein the light transfer conduit includes: an input port receiving the solar energy; an exit port proximal to the thermal storage material, and an input port receiving the solar energy; an exit port proximal to the thermal storage material, and wherein the light transfer conduit is configured to transmit the solar energy substantially losslessly and to radiate the solar energy into the thermal storage material via the exit port . <EOS>
A method, comprising: accessing behavior data of at least one user in using one or more cloud resources provided by a cloud provider ; using the behavior data, generating a profile identifying cloud using characteristics of the at least one user or a cloud tenant associated with the at least one user, wherein generating the profile comprises accessing the behavior data of a user of the at least one user in using the one or more cloud resources and generating the profile according to the behavior data of the user in using the one or more cloud resources, wherein the profile includes one of a label identifying a cloud resource type used by the cloud user, a label identifying a cloud resource using habit of the cloud user, and a label identifying a cloud resource using mode of the cloud tenant; acquiring running status data of a cloud resource; transmitting the profile and the running status data of the cloud resource to a third-party Bot module , the third-party Bot module being an artificial intelligent, Al, module running on a third-party AI data platform , and in response to the transmitting, acquiring, from the Bot module, a cloud management suggestion to adjust one or more cloud resources based on a predicted future state that is predicted based on at least the profile and the running status data of the cloud resource, wherein the third-party Bot module performs analysis on the profile and the running status data to extract information and then generate the cloud management suggestion, the third-party Bot module being used for performing machine learning on the running status data and the profile to generate prediction data on a cloud resource running status for a period in the future, and to generate the cloud management suggestion for making adjustments on cloud resources based on such prediction data. accessing behavior data of at least one user in using one or more cloud resources provided by a cloud provider ; using the behavior data, generating a profile identifying cloud using characteristics of the at least one user or a cloud tenant associated with the at least one user, wherein generating the profile comprises accessing the behavior data of a user of the at least one user in using the one or more cloud resources and generating the profile according to the behavior data of the user in using the one or more cloud resources, wherein the profile includes one of a label identifying a cloud resource type used by the cloud user, a label identifying a cloud resource using habit of the cloud user, and a label identifying a cloud resource using mode of the cloud tenant; acquiring running status data of a cloud resource; transmitting the profile and the running status data of the cloud resource to a third-party Bot module , the third-party Bot module being an artificial intelligent, Al, module running on a third-party AI data platform , and in response to the transmitting, acquiring, from the Bot module, a cloud management suggestion to adjust one or more cloud resources based on a predicted future state that is predicted based on at least the profile and the running status data of the cloud resource, wherein the third-party Bot module performs analysis on the profile and the running status data to extract information and then generate the cloud management suggestion, the third-party Bot module being used for performing machine learning on the running status data and the profile to generate prediction data on a cloud resource running status for a period in the future, and to generate the cloud management suggestion for making adjustments on cloud resources based on such prediction data. <EOS>
A negative electrode for a lithium secondary battery comprising: a lithium metal layer; and a multilayer-structured protective layer formed on the lithium metal layer, wherein the protective layer includes a first protective layer including a composite material of carbon nanotube-ion conductive polymer; and a second protective layer including a composite material of carbon nanotube-electrically conductive polymer, wherein the ion conductive polymer includes one or more selected from polyethylene oxide, polyethylene glycol, polypropylene glycol, polypropylene oxide, polyethylene succinate, polyethylene adipate, polyethyleneimine, polyepichlorohydrin, polyβ-propiolactone, polyN-propylaziridine, polyethylene glycol diacrylate, polypropylene glycol diacrylate, polyethylene glycol dimethacrylate and polypropylene glycol dimethacrylate, and the electrically conductive polymer includes one or more selected from polyaniline, polyethylenedioxythiophene, polyphenylene vinylene, polyacetylene, poly(p-phenylene), polythiophene, poly(3-alkylthiophene), poly(3-alkoxythiophene), poly(crown ether thiophene), polypyrrole, poly(dialkyl-2,2'-bipyridine), polypyridine, polyalkylpyridine, poly(2,2'-bipyridine), poly(dialkyl-2,2'-bipyridine), polypyrimidine, polydihydrophenanthrene, polyquinoline, polyisoquinoline, poly(1,2,3-benzothiadiazole), poly(benzimidazole), poly(quinoxaline), poly(2,3-diarylquinoxaline), poly(1,5-naphthyridine), poly(1,3-cyclohexadiene), poly(anthraquinone), poly(Z-methylanthraquinone), poly(ferrocene), poly(6,6'-biquinoline), polyphenylene sulfide, polyphenylene vinylene, polyindole, polypyrene, polycarbazole, polyazulene, polyazepine, polyfluorene, polynaphthalene and poly3,4-ethylenedioxythiophene-polystyrene sulfonate. a lithium metal layer; and a multilayer-structured protective layer formed on the lithium metal layer, wherein the protective layer includes a first protective layer including a composite material of carbon nanotube-ion conductive polymer; and a second protective layer including a composite material of carbon nanotube-electrically conductive polymer, wherein the ion conductive polymer includes one or more selected from polyethylene oxide, polyethylene glycol, polypropylene glycol, polypropylene oxide, polyethylene succinate, polyethylene adipate, polyethyleneimine, polyepichlorohydrin, polyβ-propiolactone, polyN-propylaziridine, polyethylene glycol diacrylate, polypropylene glycol diacrylate, polyethylene glycol dimethacrylate and polypropylene glycol dimethacrylate, and the electrically conductive polymer includes one or more selected from polyaniline, polyethylenedioxythiophene, polyphenylene vinylene, polyacetylene, poly(p-phenylene), polythiophene, poly(3-alkylthiophene), poly(3-alkoxythiophene), poly(crown ether thiophene), polypyrrole, poly(dialkyl-2,2'-bipyridine), polypyridine, polyalkylpyridine, poly(2,2'-bipyridine), poly(dialkyl-2,2'-bipyridine), polypyrimidine, polydihydrophenanthrene, polyquinoline, polyisoquinoline, poly(1,2,3-benzothiadiazole), poly(benzimidazole), poly(quinoxaline), poly(2,3-diarylquinoxaline), poly(1,5-naphthyridine), poly(1,3-cyclohexadiene), poly(anthraquinone), poly(Z-methylanthraquinone), poly(ferrocene), poly(6,6'-biquinoline), polyphenylene sulfide, polyphenylene vinylene, polyindole, polypyrene, polycarbazole, polyazulene, polyazepine, polyfluorene, polynaphthalene and poly3,4-ethylenedioxythiophene-polystyrene sulfonate. <EOS>
A motor comprising: a stator comprising: a plurality of teeth that are spaced apart from each other in a predetermined interval in a circumferential direction, and a coil that is wound around the plurality of teeth ; a rotor that is disposed inside the stator ; and a cage that is disposed in a plurality of slots that are formed between the plurality of teeth , wherein the cage includes a circular ring , from which multiple axially aligned legs protrude into the plurality of slots , wherein the cage is configured to include a flow path configured to enable a bonding agent to be injected through the flow path into at least one of the plurality of slots to bond the cage to the plurality of teeth , characterised in that the flow path is formed in a region that faces the plurality of teeth . a stator comprising: a plurality of teeth that are spaced apart from each other in a predetermined interval in a circumferential direction, and a coil that is wound around the plurality of teeth ; a plurality of teeth that are spaced apart from each other in a predetermined interval in a circumferential direction, and a coil that is wound around the plurality of teeth ; a rotor that is disposed inside the stator ; and a cage that is disposed in a plurality of slots that are formed between the plurality of teeth , wherein the cage includes a circular ring , from which multiple axially aligned legs protrude into the plurality of slots , wherein the cage is configured to include a flow path configured to enable a bonding agent to be injected through the flow path into at least one of the plurality of slots to bond the cage to the plurality of teeth , characterised in that the flow path is formed in a region that faces the plurality of teeth . <EOS>
A method comprising: projecting a structured light pattern into a volume , the structured light pattern comprising a predefined structure having a plurality of features, each feature comprising a predefined variation, wherein the predefined structure of the structured light pattern comprises striping extending in a dimension, wherein the predefined variation comprises a cycle of intensities in an additional dimension with each stripe of a group of stripes in the cycle being projected with a respective intensity, and wherein the predefined structure further comprises an intensity variation along each of the stripes so peak intensities of different stripes are in different locations relative to each other; detecting light reflected from one or more objects in the volume , the detected light including one or more of the features of the predefined structure of the structured light pattern; correlating the one or more features in the detected light with the predefined structure; and determining depth information for objects associated with each of the one or more features in the detected light based on the correlating, wherein determining the depth information for objects associated with each of the one or more features in the detected light based on the correlating comprises determining depth information for the objects based on the locations of peak intensities of different stripes. projecting a structured light pattern into a volume , the structured light pattern comprising a predefined structure having a plurality of features, each feature comprising a predefined variation, wherein the predefined structure of the structured light pattern comprises striping extending in a dimension, wherein the predefined variation comprises a cycle of intensities in an additional dimension with each stripe of a group of stripes in the cycle being projected with a respective intensity, and wherein the predefined structure further comprises an intensity variation along each of the stripes so peak intensities of different stripes are in different locations relative to each other; wherein the predefined structure of the structured light pattern comprises striping extending in a dimension, wherein the predefined variation comprises a cycle of intensities in an additional dimension with each stripe of a group of stripes in the cycle being projected with a respective intensity, and wherein the predefined structure further comprises an intensity variation along each of the stripes so peak intensities of different stripes are in different locations relative to each other; detecting light reflected from one or more objects in the volume , the detected light including one or more of the features of the predefined structure of the structured light pattern; correlating the one or more features in the detected light with the predefined structure; and determining depth information for objects associated with each of the one or more features in the detected light based on the correlating, wherein determining the depth information for objects associated with each of the one or more features in the detected light based on the correlating comprises determining depth information for the objects based on the locations of peak intensities of different stripes. <EOS>
Depth sensing apparatus , comprising: a radiation source , comprising a first array of emitters arranged in multiple banks , which are configured to emit a first plurality of pulsed beams of optical radiation toward a target scene ; a second plurality of sensing elements , which are arranged in a second array and are configured to output signals indicative of respective times of incidence of photons on the sensing elements, wherein the second plurality exceeds the first plurality; objective optics configured to form an image of the target scene on the array of sensing elements, whereby the beams of optical radiation reflected from the target scene form spots on the second array; and processing and control circuitry , which is coupled to actuate the multiple banks in alternation to emit the pulsed beams and is coupled to receive the signals from the sensing elements, and which is configured to calibrate locations of the spots on the second array by searching over the sensing elements, in pre-computed regions based on knowledge of the depth sensing apparatus or by identifying in an initialization stage, a small subset of the locations of laser spots, and in a subsequent iterative stage, predicting by a model and verifying the positions of further laser spots, in order to identify, responsively to the signals, areas of the second array on which the pulses of optical radiation reflected from corresponding regions of the target scene are incident, and to process the signals from the sensing elements in the identified areas in order measure depth coordinates of the corresponding regions of the target scene based on the times of incidence. a radiation source , comprising a first array of emitters arranged in multiple banks , which are configured to emit a first plurality of pulsed beams of optical radiation toward a target scene ; a second plurality of sensing elements , which are arranged in a second array and are configured to output signals indicative of respective times of incidence of photons on the sensing elements, wherein the second plurality exceeds the first plurality; objective optics configured to form an image of the target scene on the array of sensing elements, whereby the beams of optical radiation reflected from the target scene form spots on the second array; and processing and control circuitry , which is coupled to actuate the multiple banks in alternation to emit the pulsed beams and is coupled to receive the signals from the sensing elements, and which is configured to calibrate locations of the spots on the second array by searching over the sensing elements, in pre-computed regions based on knowledge of the depth sensing apparatus or by identifying in an initialization stage, a small subset of the locations of laser spots, and in a subsequent iterative stage, predicting by a model and verifying the positions of further laser spots, in order to identify, responsively to the signals, areas of the second array on which the pulses of optical radiation reflected from corresponding regions of the target scene are incident, and to process the signals from the sensing elements in the identified areas in order measure depth coordinates of the corresponding regions of the target scene based on the times of incidence. <EOS>
Fluid-absorbent article, comprising (A) an upper liquid-pervious layer, (B) a lower liquid-impervious layer, (C) a fluid-absorbent core between the layer (A) and the layer (B), comprising from 0 to 90% by weight fibrous material and from 10 to 100% by weight water-absorbent polymer particles, based on the sum of water-absorbent polymer particles and fibrous material; wherein the basis weight of the fluid-absorbent core at the insult zone is of at least 500 gsm, (D) an optional acquisition-distribution layer between (A) and (C), (E) an optional tissue layer disposed immediately above and/or below (C); and (F) other optional components, wherein the water-absorbent polymer particles having a mean sphericity (SPHT) from 0.8 to 0.95 and satisfying the following conditions: (a) the sum of centrifuge retention capacity (CRC) and absorbency under high load (AUHL) being at least 60 g/g, and/or (b) the log 10 (SFC) > 5.7 - 0.138 x CRC, with SFC being not less than 5 , wherein CRC is given in g/g and SFC in 10 -7 cm 3 ·s/g. (A) an upper liquid-pervious layer, (B) a lower liquid-impervious layer, (C) a fluid-absorbent core between the layer (A) and the layer (B), comprising from 0 to 90% by weight fibrous material and from 10 to 100% by weight water-absorbent polymer particles, based on the sum of water-absorbent polymer particles and fibrous material; wherein the basis weight of the fluid-absorbent core at the insult zone is of at least 500 gsm, (D) an optional acquisition-distribution layer between (A) and (C), (E) an optional tissue layer disposed immediately above and/or below (C); and (F) other optional components, wherein the water-absorbent polymer particles having a mean sphericity (SPHT) from 0.8 to 0.95 and satisfying the following conditions: (a) the sum of centrifuge retention capacity (CRC) and absorbency under high load (AUHL) being at least 60 g/g, and/or (b) the log 10 (SFC) > 5.7 - 0.138 x CRC, with SFC being not less than 5 , wherein CRC is given in g/g and SFC in 10 -7 cm 3 ·s/g. (a) the sum of centrifuge retention capacity (CRC) and absorbency under high load (AUHL) being at least 60 g/g, and/or (b) the log 10 (SFC) > 5.7 - 0.138 x CRC, with SFC being not less than 5 , wherein CRC is given in g/g and SFC in 10 -7 cm 3 ·s/g. <EOS>
A method of high pressure, high shear processing of a fluid, the method comprising the steps of: providing at least one isolator for selectively containing and discharging a second fluid, the at least one isolator further including an isolator wall defining a chamber , a separator positioned in the chamber and movable between a first end of the chamber and a second end of the chamber, the separator engaging the isolator wall to further divide the chamber into a first sub-chamber and a second sub-chamber that are in pressure communication with each other but are not in fluid communication with each other, a first sub-chamber inlet valve in fluid communication with an ultrahigh pressure pump and the first sub-chamber , a first sub-chamber outlet valve in fluid communication with the first sub-chamber , a first check valve in fluid communication with the second sub-chamber to allow fluid to enter the second sub-chamber , and a second check valve in fluid communication with the second sub-chamber to exhaust fluid from the second sub-chamber ; providing a processing unit in fluid communication with the second check valve of the at least one isolator ; alternately directing a first fluid at a pressure of at least 1.38 × 10 8 Pa (20,000 psi) into the first sub-chamber and directing the second fluid into the second sub-chamber , wherein directing the first fluid into the first sub-chamber causes the second fluid to be discharged from the second sub-chamber , through the second check valve , and through the processing unit ; and collecting the second fluid after it has passed through the processing unit . providing at least one isolator for selectively containing and discharging a second fluid, the at least one isolator further including an isolator wall defining a chamber , a separator positioned in the chamber and movable between a first end of the chamber and a second end of the chamber, the separator engaging the isolator wall to further divide the chamber into a first sub-chamber and a second sub-chamber that are in pressure communication with each other but are not in fluid communication with each other, a first sub-chamber inlet valve in fluid communication with an ultrahigh pressure pump and the first sub-chamber , a first sub-chamber outlet valve in fluid communication with the first sub-chamber , a first check valve in fluid communication with the second sub-chamber to allow fluid to enter the second sub-chamber , and a second check valve in fluid communication with the second sub-chamber to exhaust fluid from the second sub-chamber ; an isolator wall defining a chamber , a separator positioned in the chamber and movable between a first end of the chamber and a second end of the chamber, the separator engaging the isolator wall to further divide the chamber into a first sub-chamber and a second sub-chamber that are in pressure communication with each other but are not in fluid communication with each other, a first sub-chamber inlet valve in fluid communication with an ultrahigh pressure pump and the first sub-chamber , a first sub-chamber outlet valve in fluid communication with the first sub-chamber , a first check valve in fluid communication with the second sub-chamber to allow fluid to enter the second sub-chamber , and a second check valve in fluid communication with the second sub-chamber to exhaust fluid from the second sub-chamber ; providing a processing unit in fluid communication with the second check valve of the at least one isolator ; alternately directing a first fluid at a pressure of at least 1.38 × 10 8 Pa (20,000 psi) into the first sub-chamber and directing the second fluid into the second sub-chamber , wherein directing the first fluid into the first sub-chamber causes the second fluid to be discharged from the second sub-chamber , through the second check valve , and through the processing unit ; and collecting the second fluid after it has passed through the processing unit . <EOS>
A composition comprising active insulin-like growth factor (IGF) for use in the treatment of an infection in an animal caused by an infectious agent or for decreasing the risk of an infection in an animal caused by an infectious agent compared to a control animal that is not administered the composition, wherein the infectious agent is a member of the family Arteriviridae. <EOS>
A method for wireless communication operable by a mobile device , the method comprising: determining an uplink resource block configuration comprising at least one set of resource blocks on an unlicensed carrier uniformly distributed in a portion of a bandwidth occupying at least a minimum predetermined bandwidth threshold; receiving an assignment of a channel utilization beacon signal, CUBS, for transmission on the at least one set of the resource blocks, wherein the CUBS indicates an occupied bandwidth, wherein code sequences for SRS transmissions and CUBS transmissions are partitioned and wherein code sequences for CUBS transmissions from multiple UEs are not orthogonal; and sending a transmission in the at least one set of the resource blocks. determining an uplink resource block configuration comprising at least one set of resource blocks on an unlicensed carrier uniformly distributed in a portion of a bandwidth occupying at least a minimum predetermined bandwidth threshold; receiving an assignment of a channel utilization beacon signal, CUBS, for transmission on the at least one set of the resource blocks, wherein the CUBS indicates an occupied bandwidth, wherein code sequences for SRS transmissions and CUBS transmissions are partitioned and wherein code sequences for CUBS transmissions from multiple UEs are not orthogonal; and sending a transmission in the at least one set of the resource blocks. <EOS>
A method for the additive manufacture of a workpiece with the steps a. providing of a work table within the zone of influence of a set of radiation sources, wherein the set of radiation sources comprises at least one radiation source and wherein the work table comprises at least one lowerable lifting area in a starting position, b. providing of a layer of powdery raw material on the lifting area , c. exposing of regions of the first material layer which correspond to the desired shape of the workpiece to radiation from the radiation source so that the raw material in said regions is at least partially heated to at least its melting point, d. lowering of the lifting area with respect to the starting position, e. providing of a further layer of raw material on the layer which has been exposed before, f. exposing of regions of the further material layer which correspond to the desired shape of the workpiece to radiation from the radiation source so that the powder in said regions is at least partially heated to at least its melting point, g. repeating of the steps d. to f. until completion of the workpiece , wherein the lifting area at the time of completion of the workpiece is in an end position, h. cooling of the completed workpiece on the lifting area , i. removing of the workpiece from the lifting area , characterized by the additional steps - calculating of the dead volume within the construction volume which is not required for the manufacture of the workpiece , corresponding to the space between the starting position and the end position of the lifting area , - occupying of the construction volume with one or several filling elements so that at least a part of the dead volume is occupied and a construction volume which is not occupied by filling elements remains, wherein the lifting area has an outer shape which allows lowering of the lifting area relative to the filling elements through the construction volume from the starting position into the end position. a. providing of a work table within the zone of influence of a set of radiation sources, wherein the set of radiation sources comprises at least one radiation source and wherein the work table comprises at least one lowerable lifting area in a starting position, b. providing of a layer of powdery raw material on the lifting area , c. exposing of regions of the first material layer which correspond to the desired shape of the workpiece to radiation from the radiation source so that the raw material in said regions is at least partially heated to at least its melting point, d. lowering of the lifting area with respect to the starting position, e. providing of a further layer of raw material on the layer which has been exposed before, f. exposing of regions of the further material layer which correspond to the desired shape of the workpiece to radiation from the radiation source so that the powder in said regions is at least partially heated to at least its melting point, g. repeating of the steps d. to f. until completion of the workpiece , wherein the lifting area at the time of completion of the workpiece is in an end position, h. cooling of the completed workpiece on the lifting area , i. removing of the workpiece from the lifting area , - calculating of the dead volume within the construction volume which is not required for the manufacture of the workpiece , corresponding to the space between the starting position and the end position of the lifting area , - occupying of the construction volume with one or several filling elements so that at least a part of the dead volume is occupied and a construction volume which is not occupied by filling elements remains, <EOS>
An x-ray imaging apparatus for producing an x-ray image of an object, comprising: - a support frame to which an x-ray source and an x-ray detector are connected, wherein the x-ray source and the x-ray detector define between them an object space for the object to be examined, the x-ray source being configured to emit from a focal spot an x-ray beam with a main direction into the object space, the x-ray detector comprising an array of pixels sensitive to the x-ray radiation, the x-ray imaging apparatus further comprising a collimator arranged in proximity to the x-ray source and in the path of the x-ray beam between the x-ray source and the object to be examined, the collimator comprising one or more collimator bodies defining a plurality of passages of the collimator, the passages having respective central directions defining a common focal point of the collimator on the side of the x-ray source, characterised in that , the plurality of passages is a 2D array of passages seen in a plane perpendicular to the main direction of the x-ray beam, wherein the collimator comprises a set of a first collimator body and a second collimator body arranged in series with the first collimator body, wherein the first collimator body comprises a first stack of spaced apart first plates with respective first slit spaces there between, said first slit spaces being directed towards a common first imaginary line, and wherein the second collimator body comprises a second stack of spaced apart second plates with respective second slit spaces there between, wherein said second slit spaces are directed towards a common second imaginary line, the first and second common imaginary lines crossing one another in the common focal point, so that the first and second slit spaces together form said plurality of passages of the collimator. - a support frame to which an x-ray source and an x-ray detector are connected, wherein the x-ray source and the x-ray detector define between them an object space for the object to be examined, the x-ray source being configured to emit from a focal spot an x-ray beam with a main direction into the object space, the x-ray detector comprising an array of pixels sensitive to the x-ray radiation, the x-ray imaging apparatus further comprising a collimator arranged in proximity to the x-ray source and in the path of the x-ray beam between the x-ray source and the object to be examined, the collimator comprising one or more collimator bodies defining a plurality of passages of the collimator, the passages having respective central directions defining a common focal point of the collimator on the side of the x-ray source, characterised in that , the plurality of passages is a 2D array of passages seen in a plane perpendicular to the main direction of the x-ray beam, wherein the collimator comprises a set of a first collimator body and a second collimator body arranged in series with the first collimator body, wherein the first collimator body comprises a first stack of spaced apart first plates with respective first slit spaces there between, said first slit spaces being directed towards a common first imaginary line, and wherein the second collimator body comprises a second stack of spaced apart second plates with respective second slit spaces there between, wherein said second slit spaces are directed towards a common second imaginary line, the first and second common imaginary lines crossing one another in the common focal point, so that the first and second slit spaces together form said plurality of passages of the collimator. <EOS>
A home appliance comprising: a main body having a cavity ; a door rotatably coupled to a front side of the main body to open and close the cavity; a holder moveably mounted to the door and having a fixer accommodation groove with an open upper surface; a decorative plate mounted to the holder so as to be disposed on a front surface of the door; a fixer coupled to the decorative plate and being insertable in a downward direction into the open upper surface of the fixer accommodation groove to be accommodated in the fixer accommodation groove , to thereby mount the decorative plate to the holder so that the decorative plate is disposed on a front surface of the door ; and a wire connected to the holder and the main body so that, with the decorative plate mounted to the holder , rotation of the door varies tension of the wire, which thereby moves the holder, which thereby moves the decorative plate. a main body having a cavity ; a door rotatably coupled to a front side of the main body to open and close the cavity; a holder moveably mounted to the door and having a fixer accommodation groove with an open upper surface; a decorative plate mounted to the holder so as to be disposed on a front surface of the door; a fixer coupled to the decorative plate and being insertable in a downward direction into the open upper surface of the fixer accommodation groove to be accommodated in the fixer accommodation groove , to thereby mount the decorative plate to the holder so that the decorative plate is disposed on a front surface of the door ; and a wire connected to the holder and the main body so that, with the decorative plate mounted to the holder , rotation of the door varies tension of the wire, which thereby moves the holder, which thereby moves the decorative plate. <EOS>
A piston for an internal combustion engine , the piston comprising: a piston body including an upper combustion surface , an annular side wall with a ring belt region , and a cooling gallery located within the piston body radially inwardly from the ring belt region and having a fluid inlet through which a cooling fluid is supplied to the cooling gallery during operation; a piston ring located in a ring groove around the ring belt region; and an alignment pin secured in a hole in the piston side wall and projecting into the ring groove to restrict circumferential displacement of the piston ring, wherein the piston body further comprises a boss within the cooling gallery into which the hole and the alignment pin extend, wherein the boss projects into the cooling gallery opposite the fluid inlet and is shaped to provide a flow splitter surface (251-253) configured to divide cooling fluid flowing through the fluid inlet during use into first and second fluid flows and to direct the first and second fluid flows in opposite directions around the cooling gallery. a piston body including an upper combustion surface , an annular side wall with a ring belt region , and a cooling gallery located within the piston body radially inwardly from the ring belt region and having a fluid inlet through which a cooling fluid is supplied to the cooling gallery during operation; a piston ring located in a ring groove around the ring belt region; and an alignment pin secured in a hole in the piston side wall and projecting into the ring groove to restrict circumferential displacement of the piston ring, wherein the piston body further comprises a boss within the cooling gallery into which the hole and the alignment pin extend, wherein the boss projects into the cooling gallery opposite the fluid inlet and is shaped to provide a flow splitter surface (251-253) configured to divide cooling fluid flowing through the fluid inlet during use into first and second fluid flows and to direct the first and second fluid flows in opposite directions around the cooling gallery. <EOS>
A liquid dripper comprising: a container having a first opening and a second opening of different sizes; a sidewall connecting the first opening to the second opening; and ridges formed on an inside surface of the sidewall and extending in straight lines between the first opening and the second opening, characterized in that the ridges grow thicker as they approach the second opening. a container having a first opening and a second opening of different sizes; a sidewall connecting the first opening to the second opening; and ridges formed on an inside surface of the sidewall and extending in straight lines between the first opening and the second opening, characterized in that the ridges grow thicker as they approach the second opening. <EOS>
A valve arrangement comprising a valve housing , a valve inlet , a valve outlet , and a diaphragm assembly for controlling a fluid flow through the valve housing from the valve inlet to the valve outlet , the diaphragm assembly comprising a diaphragm and a diaphragm plate at least partially covering the diaphragm , the diaphragm comprising one or more equalization holes passing through the diaphragm and the diaphragm plate comprising one or more equalization openings passing through the diaphragm plate , the equalization holes being aligned with the equalization openings , characterized in that the diaphragm comprises PTFE and, in order to rotationally fix the diaphragm and the diaphragm plate with respect to each other, the diaphragm assembly comprises an engagement zone engaging the diaphragm having one or more protrusions in form of a knurling or embossments or a washer ring having a plurality of teeth as protrusions engaging the diaphragm and the diaphragm plate , wherein the washer ring is seated on the diaphragm plate , the washer ring being interposed between the diaphragm plate and the diaphragm . <EOS>
A nerve stimulation apparatus for detecting nerve activities from a body surface and applying stimulation, the nerve stimulation apparatus comprising: a stimulation apparatus, including a plurality of electrodes , a three-dimensional structure which has a convex portion on at least one side, wherein the three-dimensional structure has a semicircular column shape, and a current supply unit for supplying a current to the electrodes , configured to provide the current percutaneously to a living body to stimulate a target nerve; a measurement apparatus configured to measure activities of muscles governed by the nerve stimulated by the stimulation apparatus, or the activities of the nerve itself; and an information processing apparatus configured to determine, based on a measurement result of the nerve activities obtained from the measurement apparatus , which electrode is capable of providing the target nerve activities equal to or greater than a desired value, wherein the electrodes include a plurality of stimulation negative electrodes , a center-to-center distance of the adjacent stimulation negative electrodes is less than 3 mm, an area of each of the stimulation negative electrodes is equal to or greater than 12 mm 2 , and the stimulation negative electrodes are arranged on the convex portion of the three-dimensional structure . a stimulation apparatus, including a plurality of electrodes , a three-dimensional structure which has a convex portion on at least one side, wherein the three-dimensional structure has a semicircular column shape, and a current supply unit for supplying a current to the electrodes , configured to provide the current percutaneously to a living body to stimulate a target nerve; a measurement apparatus configured to measure activities of muscles governed by the nerve stimulated by the stimulation apparatus, or the activities of the nerve itself; and an information processing apparatus configured to determine, based on a measurement result of the nerve activities obtained from the measurement apparatus , which electrode is capable of providing the target nerve activities equal to or greater than a desired value, wherein the electrodes include a plurality of stimulation negative electrodes , a center-to-center distance of the adjacent stimulation negative electrodes is less than 3 mm, an area of each of the stimulation negative electrodes is equal to or greater than 12 mm 2 , and the stimulation negative electrodes are arranged on the convex portion of the three-dimensional structure . <EOS>
A fluid ejection system comprising: a fluid ejection die including a group of actuators, the group of actuators comprises fluid ejector type actuators and fluid recirculation type actuators ; and a controller configured to: determine whether the fluid ejection system is in a service mode as opposed to a default mode of operation; and in response to determining the fluid ejection system is in the default mode of operation, determining a firing event sequence of each actuator in the group of actuators, the firing event sequence including firing data packets that are addressed to the recirculation type actuators and to the fluid ejector type actuators ; in response to determining the fluid ejection system is in the service mode, modify a firing event sequence of each actuator in the group of actuators, the modification of the firing event sequence removing firing data packets addressed to the recirculation type actuators to increase the efficiency for purging fluid from the fluid ejection system. a fluid ejection die including a group of actuators, the group of actuators comprises fluid ejector type actuators and fluid recirculation type actuators ; and a controller configured to: determine whether the fluid ejection system is in a service mode as opposed to a default mode of operation; and in response to determining the fluid ejection system is in the default mode of operation, determining a firing event sequence of each actuator in the group of actuators, the firing event sequence including firing data packets that are addressed to the recirculation type actuators and to the fluid ejector type actuators ; in response to determining the fluid ejection system is in the service mode, modify a firing event sequence of each actuator in the group of actuators, the modification of the firing event sequence removing firing data packets addressed to the recirculation type actuators to increase the efficiency for purging fluid from the fluid ejection system. determine whether the fluid ejection system is in a service mode as opposed to a default mode of operation; and in response to determining the fluid ejection system is in the default mode of operation, determining a firing event sequence of each actuator in the group of actuators, the firing event sequence including firing data packets that are addressed to the recirculation type actuators and to the fluid ejector type actuators ; in response to determining the fluid ejection system is in the service mode, modify a firing event sequence of each actuator in the group of actuators, the modification of the firing event sequence removing firing data packets addressed to the recirculation type actuators to increase the efficiency for purging fluid from the fluid ejection system. <EOS>
A network function instance management method, comprising: receiving (S21) a management request for a target network function instance, wherein the management request for the target network function instance carries an identifier of a target virtualized network function descriptor and an identifier of a first network function instance, and the identifier of the first network function instance is used to determine a connection between the target network function instance and the first network function instance; managing (S22) the target network function instance based on the management request for the target network function instance; and establishing (S23) the connection between the target network function instance and the first network function instance based on the identifier of the first network function instance, characterized in that , before the receiving (S21) a management request for a target network function instance, the method further comprises: receiving an access information management request for the first network function instance, wherein the access information management request is used to generate the access information instance of the first network function instance based on access information of the first network function instance comprised in the access information management request, wherein the access information instance of the first network function instance comprises one or more of an external connection point descriptor identifier, a connection requirement, and a maximum accessible quantity of the first network function instance. receiving (S21) a management request for a target network function instance, wherein the management request for the target network function instance carries an identifier of a target virtualized network function descriptor and an identifier of a first network function instance, and the identifier of the first network function instance is used to determine a connection between the target network function instance and the first network function instance; managing (S22) the target network function instance based on the management request for the target network function instance; and establishing (S23) the connection between the target network function instance and the first network function instance based on the identifier of the first network function instance, characterized in that , before the receiving (S21) a management request for a target network function instance, the method further comprises: receiving an access information management request for the first network function instance, wherein the access information management request is used to generate the access information instance of the first network function instance based on access information of the first network function instance comprised in the access information management request, wherein the access information instance of the first network function instance comprises one or more of an external connection point descriptor identifier, a connection requirement, and a maximum accessible quantity of the first network function instance. <EOS>
An elevator hoistway access ladder storage system comprising a landing doorway , the landing doorway comprising a door column and a landing door characterised in that : the door column comprises a cavity and a rotating support for storing a hoistway access ladder ; and in that the rotating support is rotatable relative to the door column between a first position inside the cavity , and a second position inside the landing doorway . the door column comprises a cavity and a rotating support for storing a hoistway access ladder ; and in that the rotating support is rotatable relative to the door column between a first position inside the cavity , and a second position inside the landing doorway . <EOS>
A build material recycling system of a three-dimensional printer, comprising: a pneumatic build material transport system of the 3D printer connected to a build area of the 3D printer; a build material recycling device of the 3D printer that includes a fluidizing membrane and is connected to the pneumatic build material transport system; and a recycled build material hopper of the 3D printer connected, via the pneumatic build material transport system, to the build material recycling device and to the build area. a pneumatic build material transport system of the 3D printer connected to a build area of the 3D printer; a build material recycling device of the 3D printer that includes a fluidizing membrane and is connected to the pneumatic build material transport system; and a recycled build material hopper of the 3D printer connected, via the pneumatic build material transport system, to the build material recycling device and to the build area. <EOS>
A fertiliser pellet comprising: a first region of a nitrogen-providing fertiliser composition; and a second region adhered to the exterior of the first region , the second region comprising a fertiliser composition capable of providing (a) two or more alkali metal and/or alkaline earth metal nutrients and (b) sulphur, wherein the second region comprises a mineral powder, the mineral powder being a powder of polyhalite. a first region of a nitrogen-providing fertiliser composition; and a second region adhered to the exterior of the first region , the second region comprising a fertiliser composition capable of providing (a) two or more alkali metal and/or alkaline earth metal nutrients and (b) sulphur, wherein the second region comprises a mineral powder, the mineral powder being a powder of polyhalite. <EOS>
A cervical spine fixation apparatus comprising: a body ; a spacer ; and a frame which is located on a lateral side of the spacer and coupled to the spacer , and comprises two or more coupling portions to be coupled to the body , wherein the body comprises a hole into which the coupling portion of the frame is inserted; wherein the frame moves about the body; and wherein the frame moves while tilting in an upward or downward direction of the body . a body ; a spacer ; and a frame which is located on a lateral side of the spacer and coupled to the spacer , and comprises two or more coupling portions to be coupled to the body , wherein the body comprises a hole into which the coupling portion of the frame is inserted; wherein the frame moves about the body; and wherein the frame moves while tilting in an upward or downward direction of the body . <EOS>
A photon counting device comprising: a plurality of pixels each including a photoelectric conversion element configured to convert input light to charge, and an amplifier configured to amplify the charge converted by the photoelectric conversion element and convert the charge to a voltage; an A/D converter configured to convert the voltages output from the amplifiers of the plurality of pixels to digital values; and a conversion unit configured to convert the digital value output from the A/D converter to the number of photons by referring to reference data, for each of the plurality of pixels , wherein the reference data is created based on a gain and an offset value of each of the plurality of pixels . a plurality of pixels each including a photoelectric conversion element configured to convert input light to charge, and an amplifier configured to amplify the charge converted by the photoelectric conversion element and convert the charge to a voltage; an A/D converter configured to convert the voltages output from the amplifiers of the plurality of pixels to digital values; and a conversion unit configured to convert the digital value output from the A/D converter to the number of photons by referring to reference data, for each of the plurality of pixels , wherein the reference data is created based on a gain and an offset value of each of the plurality of pixels . <EOS>
A method of depolymerizing polymers, the method comprising the steps of: (i) providing one or more polymer starting materials, wherein the polymer starting material is one or more polyethylenes (PE), one or more polypropylenes (PP), one or more polyvinyl chlorides (PVC), one or more polystyrenes (PS), and/or suitable combinations of any two or more thereof; (ii) providing a reactor to depolymerize the one or more polymer starting materials into one or more monomers; (iii) heating the one or more polymer starting materials at a rate of from 10°C/second to 1000°C/second to a temperature in the range of 100°C to 700°C, preferably in the range of 200°C to 400°C; and (iv) providing an electromagnetic induction field to facilitate the depolymerization of the one or more polymer starting materials into their constituent monomers, wherein the electromagnetic induction field is directly applied to a mixing device of the reactor and said mixing device couples with said electromagnetic induction field, wherein the method utilizes one or more catalysts that permit in situ reactions to yield one or more functional monomers. (i) providing one or more polymer starting materials, wherein the polymer starting material is one or more polyethylenes (PE), one or more polypropylenes (PP), one or more polyvinyl chlorides (PVC), one or more polystyrenes (PS), and/or suitable combinations of any two or more thereof; (ii) providing a reactor to depolymerize the one or more polymer starting materials into one or more monomers; (iii) heating the one or more polymer starting materials at a rate of from 10°C/second to 1000°C/second to a temperature in the range of 100°C to 700°C, preferably in the range of 200°C to 400°C; and (iv) providing an electromagnetic induction field to facilitate the depolymerization of the one or more polymer starting materials into their constituent monomers, wherein the electromagnetic induction field is directly applied to a mixing device of the reactor and said mixing device couples with said electromagnetic induction field, <EOS>
Direct current electric actuator , in particular for devices for dispensing washing agents in washing machines or dishwashers, comprising - a body formed by a single stamped or drawn strip of ferromagnetic material, substantially U-shaped and including a first and a second lateral branch , facing each other and interconnected by an intermediate branch or portion , an formation of ferromagnetic material being formed in one piece with the first lateral branch of said body , which formation converges towards the region outside said body and extends in the region outside said body ; - a coil of insulated electrically conducting wire, fixed in said body such that the axis (A-A) thereof extends in a direction substantially orthogonal to said lateral branches of the body ; and - a ferromagnetic core mounted so as to be movable with respect to said body in an axially translatable manner inside the coil , from a rest position to a working position, as an effect of the energising of the coil ; one end of the core , facing towards said formation of ferromagnetic material, having a frustoconical shape essentially complementary to the internal shape of said formation ; the electric actuator being characterised in that said formation is essentially frustoconical and blind and has a planar distal bottom wall , wherein the body comprising said first branch , said second branch , said intermediate branch or portion and said frustoconical formation is made from said single stamped or drawn strip of ferromagnetic material. - a body formed by a single stamped or drawn strip of ferromagnetic material, substantially U-shaped and including a first and a second lateral branch , facing each other and interconnected by an intermediate branch or portion , an formation of ferromagnetic material being formed in one piece with the first lateral branch of said body , which formation converges towards the region outside said body and extends in the region outside said body ; - a coil of insulated electrically conducting wire, fixed in said body such that the axis (A-A) thereof extends in a direction substantially orthogonal to said lateral branches of the body ; and - a ferromagnetic core mounted so as to be movable with respect to said body in an axially translatable manner inside the coil , from a rest position to a working position, as an effect of the energising of the coil ; one end of the core , facing towards said formation of ferromagnetic material, having a frustoconical shape essentially complementary to the internal shape of said formation ; <EOS>
A process for preparing a dispersion of capsules for use downhole comprising the steps of: providing capsules containing a dense liquid, each capsule having a capsule wall defining an inner area, the capsule wall having an outer side; functionalizing the capsules by adding a carbon dioxide-philic compound to the outer side of the capsule wall to create functionalized capsules; preparing a dispersion by adding the functionalized capsules to supercritical carbon dioxide such that a stable dispersion of capsules in supercritical carbon dioxide is achieved; wherein the carbon dioxide-philic compound is poly (1,1 dihydroperfluoroctyl acrylate); and wherein the dense liquid has a density of at least 0.5 g/cc, and wherein the stable dispersion has a density greater than supercritical carbon dioxide to reduce gravity override experienced downhole . providing capsules containing a dense liquid, each capsule having a capsule wall defining an inner area, the capsule wall having an outer side; functionalizing the capsules by adding a carbon dioxide-philic compound to the outer side of the capsule wall to create functionalized capsules; preparing a dispersion by adding the functionalized capsules to supercritical carbon dioxide such that a stable dispersion of capsules in supercritical carbon dioxide is achieved; wherein the carbon dioxide-philic compound is poly (1,1 dihydroperfluoroctyl acrylate); and wherein the dense liquid has a density of at least 0.5 g/cc, and wherein the stable dispersion has a density greater than supercritical carbon dioxide to reduce gravity override experienced downhole . <EOS>
A system comprising: a robotic manipulator configured for control of motion of a medical tool , the robotic manipulator including a joint and a link connected to the joint , wherein the link is configured to connect to the medical tool , wherein the joint includes an encoder; a sensor system located at a sensor portion of the link or at the medical tool ; a processing unit including one or more processors, the processing unit configured to: receive first data from the encoder of the joint ; generate a first tool tip estimate of a first parameter of a tool tip coupled at a distal end of the medical tool using the first data and a forward kinematic model, wherein the first parameter of the tool tip is a position or a velocity of the tool tip ; receive second data from the sensor system ; generate a second tool tip estimate of the first parameter of the tool tip using the first and second data; and control the joint based on a first difference between the first and second tool tip estimates. a robotic manipulator configured for control of motion of a medical tool , the robotic manipulator including a joint and a link connected to the joint , wherein the link is configured to connect to the medical tool , wherein the joint includes an encoder; a sensor system located at a sensor portion of the link or at the medical tool ; a processing unit including one or more processors, the processing unit configured to: receive first data from the encoder of the joint ; generate a first tool tip estimate of a first parameter of a tool tip coupled at a distal end of the medical tool using the first data and a forward kinematic model, wherein the first parameter of the tool tip is a position or a velocity of the tool tip ; receive second data from the sensor system ; generate a second tool tip estimate of the first parameter of the tool tip using the first and second data; and control the joint based on a first difference between the first and second tool tip estimates. receive first data from the encoder of the joint ; generate a first tool tip estimate of a first parameter of a tool tip coupled at a distal end of the medical tool using the first data and a forward kinematic model, wherein the first parameter of the tool tip is a position or a velocity of the tool tip ; receive second data from the sensor system ; generate a second tool tip estimate of the first parameter of the tool tip using the first and second data; and control the joint based on a first difference between the first and second tool tip estimates. <EOS>
A fiber sheet , comprising: a fiber sheet main body formed of an electrically insulating material; and a sensor yarn including a first conductive yarn having electrical conductivity, an insulating section covering the first conductive yarn and formed of an electrically insulating material having absorbency, and a second conductive yarn having electrical conductivity and disposed on an outer circumferential side of the insulating section , the first and second conductive yarns being combined such that they do not come in contact with each other, wherein the insulating section is wound on the first conductive yarn , wherein the second conductive yarn is wound on the outer circumferential side of the insulating section in a spiral shape, wherein the fiber sheet main body has an elastic property in at least one direction (C), wherein the fiber sheet main body has the elastic property in an expansion and contraction direction (C), and wherein the sensor yarn is knitted in the fiber sheet main body so that the sensor yarn is disposed in the expansion and contraction direction (C) of the fiber sheet main body in a waveform. a fiber sheet main body formed of an electrically insulating material; and a sensor yarn including a first conductive yarn having electrical conductivity, an insulating section covering the first conductive yarn and formed of an electrically insulating material having absorbency, and a second conductive yarn having electrical conductivity and disposed on an outer circumferential side of the insulating section , the first and second conductive yarns being combined such that they do not come in contact with each other, wherein the insulating section is wound on the first conductive yarn , wherein the second conductive yarn is wound on the outer circumferential side of the insulating section in a spiral shape, wherein the fiber sheet main body has an elastic property in at least one direction (C), wherein the fiber sheet main body has the elastic property in an expansion and contraction direction (C), and wherein the sensor yarn is knitted in the fiber sheet main body so that the sensor yarn is disposed in the expansion and contraction direction (C) of the fiber sheet main body in a waveform. <EOS>
An apparatus comprising: a cutting surface containing a plurality of cutting elements , each cutting element comprising: a top with a flat surface ; an interior sidewall extending from a base to the top with an interior sidewall angle ; an exterior sidewall extending from the base to the top with an exterior sidewall angle wherein a portion of the exterior sidewall of one of the plurality of cutting elements touches a portion of the exterior sidewall of an adjacent one of the plurality of cutting elements ; wherein the interior sidewall angle is different than the exterior sidewall angle ; and a shoulder provided on the interior sidewall between the base of the cutting element and the top of the cutting element; wherein the shoulder has a base and a sidewall that extends from the shoulder base to the top of the cutting element at a shoulder sidewall angle. a top with a flat surface ; an interior sidewall extending from a base to the top with an interior sidewall angle ; an exterior sidewall extending from the base to the top with an exterior sidewall angle wherein a portion of the exterior sidewall of one of the plurality of cutting elements touches a portion of the exterior sidewall of an adjacent one of the plurality of cutting elements ; wherein the interior sidewall angle is different than the exterior sidewall angle ; and a shoulder provided on the interior sidewall between the base of the cutting element and the top of the cutting element; <EOS>