The main aim of this chapter is to introduce MetaBlockSphere, the next-gen cutting-edge self-evolving blockchain platform for metaverse ecosystems that require real-time intelligence, scalability, and interoperability. Presently, integrating multiple blockchain platforms with markets and identities is still an unresolved problem for decentralized virtual environments. Most current systems either depend on centralized bridges or isolate the chain design at that very moment, damaging decentralization, imparting latency, and making cross-platform communication more difficult. Moreover, current DAO mechanisms are too rigid to regulate virtual-asset economies and dynamic user behaviors in real-time. MetaBlockSphere proposes a novel layered architecture comprising a MetaOrchestrator Layer for multi-chain abstraction, a Semantic Interoperability Layer (SIL) for cross-world identity and asset translation, and an EdgeChain Mesh Network (ECMN) for low-latency localized blockchain operations. Reinforcement learning is used in the self-evolving governance layer, which dynamically alters access controls, token flows, and policy decisions. HoloAsset allows the secure creation, validation, and transfer of 3D assets and NFTs across metaverse domains using Zero-Knowledge Proofs. Three virtual domains (custom-built testnets) were utilized during which the asset transaction simulation, cross-chain avatar movement, and governance adaptation took place. Performance measures were contrasted with the edge chain bridging systems. The system has been validated for its scalability and fluidity by the results indicating a 37% decrease in End-to-End Latency (E2EL) while increasing transaction throughput by 47%. Additionally, it experienced a rise in the Interoperability Success Rate (ISR) by 17% and an increase in Semantic Integrity Score (SIS) by 23%. This research fosters immersive collaboration, virtual economies, and education by bridging the gaping realm between static blockchain integration and metaverse engagement that is dynamic and real-time.

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MetaBlockSphere Self Evolving Framework (MBSF) for Scalable and Interoperable Blockchain Metaverse Systems

  • S. Usharani,
  • P. Manju Bala,
  • A. Devi,
  • A. Balachandar,
  • G. Glorindal

摘要

The main aim of this chapter is to introduce MetaBlockSphere, the next-gen cutting-edge self-evolving blockchain platform for metaverse ecosystems that require real-time intelligence, scalability, and interoperability. Presently, integrating multiple blockchain platforms with markets and identities is still an unresolved problem for decentralized virtual environments. Most current systems either depend on centralized bridges or isolate the chain design at that very moment, damaging decentralization, imparting latency, and making cross-platform communication more difficult. Moreover, current DAO mechanisms are too rigid to regulate virtual-asset economies and dynamic user behaviors in real-time. MetaBlockSphere proposes a novel layered architecture comprising a MetaOrchestrator Layer for multi-chain abstraction, a Semantic Interoperability Layer (SIL) for cross-world identity and asset translation, and an EdgeChain Mesh Network (ECMN) for low-latency localized blockchain operations. Reinforcement learning is used in the self-evolving governance layer, which dynamically alters access controls, token flows, and policy decisions. HoloAsset allows the secure creation, validation, and transfer of 3D assets and NFTs across metaverse domains using Zero-Knowledge Proofs. Three virtual domains (custom-built testnets) were utilized during which the asset transaction simulation, cross-chain avatar movement, and governance adaptation took place. Performance measures were contrasted with the edge chain bridging systems. The system has been validated for its scalability and fluidity by the results indicating a 37% decrease in End-to-End Latency (E2EL) while increasing transaction throughput by 47%. Additionally, it experienced a rise in the Interoperability Success Rate (ISR) by 17% and an increase in Semantic Integrity Score (SIS) by 23%. This research fosters immersive collaboration, virtual economies, and education by bridging the gaping realm between static blockchain integration and metaverse engagement that is dynamic and real-time.