AISim
  • 1. Market Background
    • 1.1 Development Prospects
    • 1.2 Potential Challenges
  • 2. AISim: The World’s First Web3 IoE Network
    • 2.1 AIA Protocol (AISim Intelligent Access Protocol)
    • 2.2 Decentralized Identity Authentication (DID) System
    • 2.3 Distributed AI Acceleration Engine
    • 2.4 Intelligent Privacy Computing Module
    • 2.5 DeAI Client (Decentralized AI Client)
    • 2.6 IoE Data Management and Intelligent Caching System
  • 3. Technical Architecture
    • 3.1 AIA Protocol
      • 3.1.1 Protocol Adaptation Layer
      • 3.1.2 Distributed Task Scheduling Engine
      • 3.1.3 Decentralized Communication Network
      • 3.1.4 Cross-layer Data Encryption and Privacy Protection
      • 3.1.5 Dynamic Resource Scheduling and Optimization
    • 3.2 Distributed AI Acceleration
      • 3.2.1 Edge Node Computing Optimization
      • 3.2.2 Multi-Node Distributed Execution
      • 3.2.3 Privacy-Preserving Collaborative Training
    • 3.3 Decentralized Identity and Access Management
      • 3.3.1 Identity Verification and Access Level Grading
      • 3.3.2 Multi-level Data Protection
  • 4. Application Scenario
    • 4.1 Smart Healthcare and Health Management
    • 4.2 Autonomous Driving and Intelligent Transportation
    • 4.3 Agricultural Internet of Things and Precision Agriculture
    • 4.4 Industrial Automation and Intelligent Manufacturing
    • 4.5 Smart City and Public Services
    • 4.6 Edge Computing and Distributed AI
  • 5. IoE Web3 Ecosystem Construction
    • 5.1 DID Physical Nodes
      • 5.1.1 Types of Smart SIM Cards
      • 5.1.2 Rights of DID Physical Nodes
    • 5.2 MVNO Integration
    • 5.3 Ecosystem Incentives
  • 6. Tokenomics
    • 6.1 Token Distribution
    • 6.2 AST Token Use Cases
  • 7.Roadmap
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  1. 4. Application Scenario

4.2 Autonomous Driving and Intelligent Transportation

The application of AISim in the field of autonomous driving and intelligent transportation is very extensive, especially in the optimization of intelligent routes. By collecting and analyzing traffic data in real-time, AI Agents can dynamically plan the optimal driving routes, reduce traffic congestion, and help drivers save time and fuel consumption. This technology not only improves traffic smoothness but also reduces carbon emissions, in line with the goal of sustainable development.

V2X communication is another key application area. AISim supports efficient communication between vehicles and other traffic infrastructure (such as traffic lights, parking lots, etc.), ensuring real-time information transmission between vehicles and roadside equipment. AI Agents support the application of autonomous driving technology through these real-time data, improving driving safety and road use efficiency.

In terms of accident response, AISim can quickly optimize emergency response measures by analyzing sensor data at the accident site. AI Agents can identify the type and severity of the accident, automatically dispatch rescue resources, optimize medical support and evacuation plans, and provide rescue in the shortest time to reduce the losses caused by the accident.

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Last updated 4 months ago