Litcius/Paper detail

Decentralized Consensus Decision-Making for Cybersecurity Protection in Multimicrogrid Systems

Bowen Hu, Chunjie Zhou, Yu‐Chu Tian, Xiaoya Hu, Xinjue Junping

2020IEEE Transactions on Systems Man and Cybernetics Systems30 citationsDOI

Abstract

Multimicrogrid (MMG) systems play an increasingly important role in the smart grid. They come with various potential cyberattacks, which may cause power supply interruption or even human casualties. Therefore, decision-making for timely mitigation of cyberattack risks is highly desirable in the security protection of power systems. However, there is a lack of effective decentralized decision-making strategies that are able to deal with MMG scenarios through distributed consensus. To address this issue, a decentralized consensus decision-making (DCDM) approach is proposed in this article for the security of MMG systems. It achieves decentralized consensus without the need of a trusted authority or central server, making it distinct from existing consensus methods. Meanwhile, it guarantees the consistency and nonrepudiability of consensus results, which are stored on the blockchain in sequence. In each of the distributed agents, the approach consists of a fuzzy static Bayesian game model (FSB-GM) to determine the optimal security strategy and a hybrid consensus algorithm to achieve consensus. The FSB-GM considers the fuzzy preferences of different types of attackers and defenders. The hybrid consensus algorithm is implemented by the fusion improvement of two consensus mechanisms in the blockchain. The effectiveness of the presented approach is demonstrated through a case study on an MMG system.

Topics & Concepts

Computer scienceComputer securityConsensusConsistency (knowledge bases)Consensus algorithmFuzzy logicRisk analysis (engineering)Multi-agent systemBusinessArtificial intelligenceData scienceSmart Grid Security and ResilienceNetwork Security and Intrusion DetectionInfrastructure Resilience and Vulnerability Analysis