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Blockchain-Enabled Cyber-Resilience Enhancement Framework of Microgrid Distributed Secondary Control Against False Data Injection Attacks

Jiahong Dai, Jiawei Yang, Yu Wang, Yan Xu

2023IEEE Transactions on Smart Grid23 citationsDOI

Abstract

False data injection attacks (FDIA) pose a significant threat to the microgrids by corrupting information exchange among controller units. An effective solution to enhance the cyber-resilience is urgently needed, given the unbalanced advantages between the attacker and defender. To mitigate this issue, a proposed framework for enhancing cyber-resilience leverages the intrinsic security of blockchain technology to replace vulnerable information exchange and computation with secure transactions. Unlike the current approaches in the control field with limited cyber-resilience, this framework considers both the communication and control fields. Smart contracts (SCs) deployed on an enterprise-level HyperLedger blockchain provide distributed secondary control and self-healing functions, securing microgrid secondary control against FDIAs in a zero-trust environment. The proposed framework is validated through a four-DG microgrid system on a hardware-in-the-loop testbed. The results demonstrate that the framework provides comparable distributed control performance to conventional approaches, even in cases where the intensity of the FDIA launched exceeds the theoretical fault-tolerance of the blockchain technology.

Topics & Concepts

MicrogridTestbedResilience (materials science)BlockchainComputer securityComputer scienceInformation exchangeField (mathematics)Distributed computingFault injectionControl (management)Risk analysis (engineering)Computer networkTelecommunicationsBusinessThermodynamicsPhysicsArtificial intelligencePure mathematicsSoftwareMathematicsProgramming languageSmart Grid Security and ResilienceBlockchain Technology Applications and SecuritySoftware-Defined Networks and 5G
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