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Identification of interdependencies and prediction of fault propagation for cyber–physical systems

Koosha Marashi, Sahra Sedigh Sarvestani, Ali R. Hurson

2021Reliability Engineering & System Safety32 citationsDOIOpen Access PDF

Abstract

Interdependence is an intrinsic feature of cyber–physical systems. Cyber and physical components are tightly integrated with each other, and hence, a trivial impairment in a part of the system may affect several components, leading to a sequence of failures that collapses the entire system. In this paper, we seek to identify the interdependencies among the components of a cyber–physical system using correlation metrics as well as a heuristic causation analysis method. We also demonstrate applicability of neural networks for prediction of imminent failures given the current system state. The proposed prediction tool can help system operators to perform timely preventive actions and mitigate the consequences of accidental failures and malicious attacks. As a case study, we have analyzed two smart grid test cases based on IEEE power bus systems, namely, IEEE-14 and IEEE-57.

Topics & Concepts

Cyber-physical systemInterdependenceIdentification (biology)Computer scienceElectric power systemHeuristicFault (geology)Reliability engineeringSmart gridArtificial neural networkData miningDistributed computingComputer securityEngineeringPower (physics)Artificial intelligenceElectrical engineeringBotanyPolitical scienceLawSeismologyBiologyPhysicsOperating systemGeologyQuantum mechanicsSmart Grid Security and ResilienceInfrastructure Resilience and Vulnerability AnalysisPower System Reliability and Maintenance
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