Litcius/Paper detail

Weighted Byzantine Fault Tolerance consensus algorithm for enhancing consortium blockchain efficiency and security

Hongwu Qin, Yuntao Cheng, Xiuqin Ma, Li Fei, Jemal Abawajy

2022Journal of King Saud University - Computer and Information Sciences44 citationsDOIOpen Access PDF

Abstract

In blockchain, the consensus algorithm is a core component that governs the trust among the participants in the blockchain activities. However, the exiting consensus algorithms suffer from performance bottleneck such as low throughput, high delay, unstable performance, sustainability issues and vulnerability to targeted attacks. In this paper, we propose a new consortium blockchain consensus algorithm, referred to as Weighted Byzantine Fault Tolerance (WBFT) consensus algorithm that improves system throughput and consensus delay. We introduce a dynamic weighting mechanism for consensus nodes, which enhances the security of blockchain system by weakening the influence of malicious nodes and reduces the probability of malicious behavior. We validate the performance of WBFT experimentally and compare it against Practical Byzantine Fault Tolerance (PBFT) and Reputation-Based Byzantine Fault-Tolerance (RBFT) based approaches. The results show that WBFT substantially outperforms PBFT and RBFT in terms of system throughput, consensus delay and security.

Topics & Concepts

Byzantine fault toleranceBlockchainComputer scienceConsensus algorithmBottleneckFault toleranceThroughputDistributed computingVulnerability (computing)AlgorithmQuantum Byzantine agreementConsensusComputer securityMulti-agent systemArtificial intelligenceEmbedded systemWirelessTelecommunicationsBlockchain Technology Applications and SecurityDistributed systems and fault toleranceCloud Computing and Resource Management