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Time-Synchronization Attack Detection in Unbalanced Three-Phase Systems

Marguerite Delcourt, Ezzeldin Shereen, György Dán, Jean‐Yves Le Boudec, Mario Paolone

2021IEEE Transactions on Smart Grid15 citationsDOIOpen Access PDF

Abstract

Phasor measurement units (PMU) rely on an accurate time-synchronization to phase-align the phasors and timestamp the voltage and current phasor measurements. Among the symmetrical components computed from the phasors in three-phase systems, the standard practice only uses the direct-sequence component for state estimation and bad data detection (BDD). Time-synchronization attacks (TSAs) can compromise the measured phasors and can, thus, significantly alter the state estimate in a manner that is undetectable by widely used power-system BDD algorithms. In this paper we investigate the potential of utilizing the three-phase model instead of the direct-sequence model for mitigating the vulnerability of state estimation to undetectable TSAs. We show analytically that if the power system is unbalanced then the use of the three-phase model as input to BDD algorithms enables to detect attacks that would be undetectable if only the direct-sequence model was used. Simulations performed on the IEEE 39-bus benchmark using real load profiles recorded on the grid of the city of Lausanne confirm our analytical results. Our results provide a new argument for the adoption of three-phase models for BDD, as their use is a simple, yet effective measure for reducing the vulnerability of PMU measurements to TSAs.

Topics & Concepts

PhasorSynchronization (alternating current)Benchmark (surveying)Units of measurementComputer scienceElectric power systemObservabilityVulnerability (computing)Phase (matter)Sequence (biology)Control theory (sociology)Real-time computingPower (physics)AlgorithmMathematicsArtificial intelligenceTelecommunicationsGeneticsPhysicsQuantum mechanicsGeographyApplied mathematicsChemistryComputer securityChannel (broadcasting)Organic chemistryControl (management)GeodesyBiologySmart Grid Security and ResiliencePower System Optimization and StabilityPower Systems Fault Detection
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