Beyond Gaming (BG) White Paper
  • 1. Introduction
  • 2. Web3 Gaming Opportunities
    • 2.1 Dynamic Game Economy
    • 2.2 Unified Player Identity and Reputation
    • 2.3 Cross-Game Asset Portability
    • 2.4 Real-Time Data Integration
    • Conclusion
  • 3. BEYOND GAMING(BG) Chain Overview
    • 3.1 Core Team
    • 3.2 Vision
    • 3.3 Mission
    • 3.4 Goals
    • 3.5 Strategic Partners
      • Investors
      • Partnerships
  • 4. Key Features
    • 4.1 Smart Contracts for Dynamic In-Game Economy
    • 4.2 Decentralized Identity and Reputation System
    • 4.3 Cross-Game Asset Portability Through Token Standards
    • 4.4 Oracle Integration for Real-Time Data-Driven Gameplay
    • 4.5 Blockchain as a Service (BAAS) Model
  • 5. Ecosystem Content and Application Value
    • 5.1 Ecosystem Content
    • 5.2 Application Value
    • 5.3 Ecosystem Expansion
  • 6. Technical Architecture
    • 6.1 Blockchain Infrastructure
    • 6.2 AI Layer: Independent Off-Chain Service
      • 6.2.1 Data Flow Between Blockchain and AI Layer
      • 6.2.2 AI Event Generation and Feedback
      • 6.2.3 Security Integration and Data Integrity
      • 6.2.4 Efficiency and Scalability
      • 6.2.5 AI for Economic Adjustments and Event Generatio
      • 6.2.6 AI for Fraud Detection and Cheating Prevention
      • 6.2.7 AI for Dynamic Asset Valuatio
    • 6.3 Minting and Mining Mechanisms
      • 6.3.1 Minting through Proof of Stake
      • 6.3.2 Mining through Proof of Participation
    • 6.4 Governance Model and Decentralized Autonomous Organization (DAO) Mechanism
      • 6.4.1 DAO Voting and Proposal System
      • 6.4.2 DAO Treasury and Fund Distribution
  • 7. Tokenomics
    • 7.1 Use Cases for BG Token
    • 7.2 Token Distribution
    • 7.3 Deflationary Model
  • 8. Development Incentives and Player Rewards
    • 8.1 Developer Grants and Incentives
    • 8.2 Player Incentives and Rewards
  • 9. User Experience and Developer Tools
    • 9.1 User Experience (UX) Design
    • 9.2 Developer Tools and SDK
  • 10. Competitive Analysis
    • 10.1 Competitive Landscape
    • 10.2 BG Chain’s Competitive Advantages
  • 11. Roadmap
    • Phase 1: Q2 2024
    • Phase 2: Q3 2024 - Q1 2025
    • Phase 3: Q2 - Q3 2025
    • Phase 4: Q4 2025 - Q1 2026
    • Phase 5: Q2 2026
    • Phase 6: Q3 2026
    • Phase 7: Q4 2026 - Q1 2027
    • Phase 8: Q2 - Q3 2027
  • 12. Security
    • 12.1 Smart Contract Audits
    • 12.2 Network Security
    • 12.3 Incident Response
  • 13. Compliance
    • 13.1 Legal Compliance
    • 13.2 Data Privacy and GDPR
    • 13.3 Token Compliance
    • Summary
  • 14. BEYOND GAMING(BG) Chain Whitepaper Summary
    • 14.1 Key Points
  • 15. Future Vision
Powered by GitBook
On this page
  1. 6. Technical Architecture
  2. 6.2 AI Layer: Independent Off-Chain Service

6.2.3 Security Integration and Data Integrity

To ensure trust and integrity between the AI layer and the blockchain, the public chain is equipped with security mechanisms for data validation and feedback loops.

  • Data Validation via Oracles The oracles used for data transmission also play a critical role in ensuring the accuracy and trustworthiness of the data sent to the AI layer. Cryptographic techniques (e.g., hash verification) are used to guarantee that data inputs have not been tampered with.

  • Smart Contract Constraints Smart contracts interacting with the AI layer include fail-safes and constraints to ensure that malicious or erroneous data from the AI system cannot compromise the blockchain. Contracts are designed to only execute changes within pre-approved limits, ensuring that the blockchain’s decentralized nature remains intact.

Previous6.2.2 AI Event Generation and FeedbackNext6.2.4 Efficiency and Scalability

Last updated 5 months ago