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200 14$aThe fourth part of the reports of several cases of law argued and adjudged in the several courts at Westminster, in the time of the late Queen Elizabeths reign$b[electronic resource] /$fcollected by a learned professor of the law, William Leonard, Esq. ... published by William Hughes of Grayes-Inn, Esq. ; with tables of the names of the cases, and of the matters contained in this book
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181   $ctxt$2rdacontent
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200 10$aSharding Blockchain: Fundamentals and Applications /$fby Yizhong Liu, Dongyu Li, Jianwei Liu
205   $a1st ed. 2025.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2025.
215   $a1 online resource (XVIII, 335 p. 93 illus., 58 illus. in color.) 
311 08$a981-9636-85-X 
327   $aIntroduction -- Building Blocks of Sharding Blockchain Systems -- Shard Reconfiguration Protocol Realizing Fairness -- Shard Reconfiguration Protocol Against Proof-of-Work Solution Withhold Attack -- Secure and Scalable Sharding Blockchain Utilizing Aggregation-Supported Multi-Signature -- Secure and Scalable Sharding Blockchain with a Formal Security Framework -- Secure and Scalable Sharding Blockchain Based on Cross-Shard Byzantine Fault Tolerance -- Sharding Blockchain Application in Cross-Domain Data Sharing Under Zero-Trust Cloud-Edge-End Environments -- Sharding Blockchain Application in Cross-Domain Authentication Management System -- Sharding Blockchain Application in Consensus Control and Formation Flying of Intelligent Systems.
330   $aThis book presents a novel approach by decoupling the various modules of sharding blockchains and providing detailed insights into the functions and design methodologies of each key module. Previous sharding blockchain solutions suffered from tight coupling between functional modules, making it challenging to achieve optimal security, performance, and scalability. Building upon this foundation, the authors present a universal composable method for composing sharding blockchains in a flexible manner. Additionally, the authors propose a novel shard member configuration method that leverages proof-of-work and verifiable distributed randomness to guarantee that each shard maintains a sufficient proportion of honest nodes, preventing it from falling below the safety threshold. Furthermore, the authors offer a complete design methodology for creating secure and scalable sharding blockchains. This includes reducing the complexity of intra-shard transaction processing through aggregation-supported multi-signature. The authors ensure optimal sharding of computational, communication, and storage resources within a formal security framework. To facilitate flexible cross-shard transaction processing, the authors introduce a new cross-shard Byzantine fault tolerance protocol. Lastly, the authors explore practical applications of sharding blockchains in typical scenarios. In the context of zero-trust cloud-edge-end scenarios, the authors demonstrate how sharding blockchains enable scalable data cross-shard sharing. Simultaneously, the authors design a secure and universally applicable cross-domain device authentication scheme.
606   $aComputational intelligence
606   $aArtificial intelligence
606   $aComputational Intelligence
606   $aArtificial Intelligence
615  0$aComputational intelligence.
615  0$aArtificial intelligence.
615 14$aComputational Intelligence.
615 24$aArtificial Intelligence.
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700   $aLiu$b Yizhong$4aut$4http://id.loc.gov/vocabulary/relators/aut$01821140
702   $aLi$b Dongyu$4aut$4http://id.loc.gov/vocabulary/relators/aut
702   $aLiu$b Jianwei$4aut$4http://id.loc.gov/vocabulary/relators/aut
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