AIVille
  • Welcome to AIVille
    • 🌾The Genesis of AIVille
    • 🚂Architecture of Generative Agents
      • 📚Memory Stream & Retrieval
      • ☁️Reflection
      • 📆Planning and Action
  • 🎮AI Agents in AIVille Game
    • 🤖Roles in AIVille
    • 🚂Core Gameplay Loops in AIVille
  • AIVille Evolution
    • 🚨The Current Limitations in AI and dApp Integration
    • 🤖The Rise of eMCP
      • 🔖eMCP: The Bridge Between AI and Blockchain
      • 🚀The Evolution of AIVille
    • 🧗‍♀️AIVille: From AI Simulation to Web3 MCP Infrastructure to AI Game Framework
      • 🏁Phase 1: AI-Native Simulation on BNB Chain
      • 🏁Phase 2: Multi-Chain AI Agent Coordination
      • 🏁Phase 3: eMCP Infrastructure Layer for Web3
      • 🏁Phase 4: Modular AI Framework for Web3 Games
  • Architecture and Highlights
    • ⛓️AIVille System Architecture
    • 💎Design Highlights
  • TOKENOMICS
    • 💸Dual-Token Economics
      • 💵$DINAR (In-game & AI Behavioral Token)
      • 💵$AGT (Governance & Utility Token)
      • ➰Value Creation Loops
      • 🌉Cross-Chain Design & Expansion
      • ✈️Governance & Treasury
  • ROADMAP
    • 🌳AIVille Roadmap
  • Official
    • 🖇️Official Links
Powered by GitBook
On this page
  1. AIVille Evolution
  2. The Rise of eMCP

eMCP: The Bridge Between AI and Blockchain

Unlike conventional AI integrations that exist off-chain or in silos, eMCP (Enhanced Model Context Protocol) introduces a modular, standardized interface that empowers agents to operate as fully autonomous Web3 entities.With eMCP, agents can:

  • 🧠 Interpret on-chain data contextually, with awareness of state and environment

  • ⚙️ Execute smart contract functions in real time

  • 🌐 Access and coordinate across multiple chains (e.g., BNB Chain, Ethereum, Solana)

  • 🗃️ Store and retrieve memory directly from the blockchain

  • 🤝 Communicate with humans and other agents via secure, standardized protocols

PreviousThe Rise of eMCPNextThe Evolution of AIVille

Last updated 13 days ago

🤖
🔖