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Evaluation of cyber‐physical power systems in cascading failure: node vulnerability and systems connectivity

Lei Chen, Dong Yue, Chunxia Dou, Jianbo Chen, Zihao Cheng

2020IET Generation Transmission & Distribution26 citationsDOIOpen Access PDF

Abstract

In cyber‐physical power systems, tiny failure occurring in the communication network could propagate to affect the operation of the physical power grid through inter‐links and even cause catastrophic blackouts. The authors propose a partial random coupling systems model to study the vulnerability of nodes and connectivity of systems in a cascading failure. In terms of traffic loads generated in systems, they employ load spill index to analyse dynamic states of nodes in cascading failure. In cascading failure, considering the effect from a communication network, vulnerability matrices are established to study the vulnerability of nodes in the physical power grid. Furthermore, an efficiency index is defined to analyse connectivity of systems. In the numerical simulation, they verify the accuracy of the proposed evaluation approach and test its scalability and universality in different power systems.

Topics & Concepts

Cascading failureCyber-physical systemVulnerability (computing)Computer scienceScalabilityElectric power systemVulnerability assessmentVulnerability indexDistributed computingGridPower-system protectionComplex networkComputer networkReliability engineeringPower (physics)EngineeringComputer securityWorld Wide WebQuantum mechanicsGeometryBiologyOperating systemPhysicsClimate changePsychological resilienceDatabasePsychotherapistMathematicsPsychologyEcologyComplex Network Analysis TechniquesSmart Grid Security and ResilienceOpinion Dynamics and Social Influence