# Unity Fleet MVP Key Components for Demonstration Based on the requirements analysis, this document identifies the specific components that will be developed as MVPs and working models to showcase Unity Fleet's "The Link" ecosystem. ## 1. Mobile Application Prototype **Component Description**: A responsive web application that simulates the user experience for vehicle reservations and management. **Key Features to Implement**: - Vehicle browsing interface with filtering options - Reservation calendar and booking flow - User account dashboard - Vehicle status tracking - Payment simulation **Technical Approach**: - Develop as a responsive web application using React - Use mock data to simulate vehicle availability and reservations - Implement UI components that match Unity Fleet's visual identity - Create a seamless user journey from account creation to reservation completion **Demonstration Value**: - Shows the user-facing aspect of the business model - Demonstrates ease of access for potential customers - Illustrates the subscription model in action - Provides tangible example of service for grant reviewers ## 2. Charging Hub Management Dashboard **Component Description**: An administrative interface that demonstrates how charging infrastructure is monitored and managed. **Key Features to Implement**: - Real-time status monitoring of charging stations - Energy usage analytics and visualizations - Maintenance scheduling and alerts - User access management - Revenue tracking **Technical Approach**: - Develop as a web-based dashboard using React and data visualization libraries - Create simulated data streams for charging activity - Implement interactive maps showing charging hub locations - Design responsive layouts for different device sizes **Demonstration Value**: - Illustrates the operational efficiency of the charging network - Shows how data is leveraged for system optimization - Demonstrates the integration of business and technical operations - Highlights the scalability of the infrastructure model ## 3. Energy Management Simulation **Component Description**: A visual simulation showing how solar generation, battery storage, and grid interaction work together in the charging ecosystem. **Key Features to Implement**: - Solar energy generation visualization based on time of day and weather - Battery charge/discharge cycles - Grid interaction during peak/off-peak times - Energy flow animations - Cost and carbon savings calculations **Technical Approach**: - Develop using JavaScript with animation libraries - Create data models that accurately represent energy flows - Design intuitive visualizations that explain complex energy concepts - Implement time controls to demonstrate system behavior under different conditions **Demonstration Value**: - Demonstrates the renewable energy integration central to the proposal - Illustrates how the system reduces carbon emissions - Shows the economic benefits of the energy approach - Explains technical concepts in an accessible way ## 4. Subscription Management Portal **Component Description**: A demonstration of the subscription business model showing different tiers, pricing, and customer management. **Key Features to Implement**: - Subscription tier comparison interface - Customer management dashboard - Usage tracking and analytics - Billing simulation - Upgrade/downgrade pathways **Technical Approach**: - Develop as a web application with both customer and admin views - Create sample customer profiles and subscription data - Implement interactive elements to explore different subscription scenarios - Design clear visualizations of subscription economics **Demonstration Value**: - Illustrates the financial sustainability of the business model - Shows the customer value proposition at different price points - Demonstrates how the system scales with customer growth - Highlights the recurring revenue aspects of the model ## 5. Interactive Deployment Map **Component Description**: A geographic visualization showing the planned deployment of charging hubs across Illinois with associated data and timelines. **Key Features to Implement**: - Interactive map of Illinois with planned hub locations - Phased deployment timeline visualization - Population coverage analytics - Infrastructure impact metrics - EV adoption projections by region **Technical Approach**: - Develop using mapping libraries (Leaflet or Google Maps API) - Implement data overlays for different metrics - Create timeline controls to show deployment phases - Design pop-up information panels for each location **Demonstration Value**: - Demonstrates the strategic geographic approach - Shows how the network will grow over time - Illustrates the statewide impact of the project - Connects abstract concepts to specific locations ## 6. ChainLink Tokenization Demonstration **Component Description**: A simplified demonstration of how the tokenization concept works for asset ownership and value distribution. **Key Features to Implement**: - Token allocation visualization - Asset ownership representation - Value flow diagrams - Simulated token transactions - Stakeholder dashboard **Technical Approach**: - Develop as an interactive web application - Create simplified blockchain visualization - Implement animations showing token distribution and value flows - Design intuitive explanations of complex tokenization concepts **Demonstration Value**: - Explains the innovative financial model - Demonstrates how community ownership works - Shows the long-term value creation mechanism - Illustrates the unique aspects of Unity Fleet's approach ## Development Priorities and Timeline ### Phase 1 (Weeks 1-2) - Mobile Application Prototype - Interactive Deployment Map ### Phase 2 (Weeks 3-4) - Charging Hub Management Dashboard - Subscription Management Portal ### Phase 3 (Weeks 5-6) - Energy Management Simulation - ChainLink Tokenization Demonstration ## Integration Strategy These six components will be developed as standalone demonstrations but with consistent branding, data models, and user experience. They will be designed to work together as a cohesive presentation of the Unity Fleet ecosystem, with cross-references between components where appropriate. The components will be developed with a focus on visual impact and clear communication of concepts, using simulated data that realistically represents the expected operation of the actual systems once deployed.