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Modeling and performance evaluation of stealthy false data injection attacks on smart grid in the presence of corrupted measurements

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arxiv 1605.06180 v1 pith:CAG3QIU4 submitted 2016-05-20 cs.CR

Modeling and performance evaluation of stealthy false data injection attacks on smart grid in the presence of corrupted measurements

classification cs.CR
keywords attacksdatacorruptederrorsevaluationfalseinjectionmeasurements
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The false data injection (FDI) attack cannot be detected by the traditional anomaly detection techniques used in the energy system state estimators. In this paper, we demonstrate how FDI attacks can be constructed blindly, i.e., without system knowledge, including topological connectivity and line reactance information. Our analysis reveals that existing FDI attacks become detectable (consequently unsuccessful) by the state estimator if the data contains grossly corrupted measurements such as device malfunction and communication errors. The proposed sparse optimization based stealthy attacks construction strategy overcomes this limitation by separating the gross errors from the measurement matrix. Extensive theoretical modeling and experimental evaluation show that the proposed technique performs more stealthily (has less relative error) and efficiently (fast enough to maintain time requirement) compared to other methods on IEEE benchmark test systems.

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