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Reputation-Based Coalition Formation for Secure Self-Organized and Scalable Sharding in IoT Blockchains With Mobile-Edge Computing

Alia Asheralieva, Dusit Niyato

2020IEEE Internet of Things Journal61 citationsDOI

Abstract

We propose a fully distributed system architecture and a scalable self-organized sharding scheme for the Internet-of-Things (IoT) blockchains that can guarantee system security without reducing its throughput. In the system, the IoT devices are supported by the set of blockchain peers that gather, process, verify, and store the blocks of IoT transaction records. To support communications among peers, the system is realized in the mobile-edge computing (MEC) network. We design a new consensus mechanism in which each peer votes on the outputs of each block task in its shard. The peer's voting power is computed from its reputation, i.e., trustworthiness in the system. By adopting a reputation-based coalitional game model, we formulate a novel self-organized shard formation algorithm in which each peer acts as a rational player aiming to maximize both its payoff and the coalitional reputation. We prove that the algorithm converges to the reputation-based stable shard structure, i.e., a structure that maximizes the payoff and coalitional reputation of each peer without negatively affecting other peers. The algorithm shows a superior performance in terms of system security and throughput when compared to state-of-the-art sharding schemes and reputation-based blockchains.

Topics & Concepts

Computer scienceScalabilityReputationDistributed computingMobile edge computingReputation systemEnhanced Data Rates for GSM EvolutionStochastic gameBlock (permutation group theory)Computer networkComputer securityServerGeometryMathematical economicsTelecommunicationsSocial scienceSociologyDatabaseMathematicsBlockchain Technology Applications and SecurityIoT and Edge/Fog ComputingCaching and Content Delivery
Reputation-Based Coalition Formation for Secure Self-Organized and Scalable Sharding in IoT Blockchains With Mobile-Edge Computing | Litcius