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Secured Cluster-Based Electricity Theft Detectors Against Blackbox Evasion Attacks

Islam Elgarhy, Ahmed T. El-Toukhy, Mahmoud M. Badr, Mohamed Mahmoud, Mostafa M. Fouda, Maazen Alsabaan, Hisham A. Kholidy

202411 citationsDOI

Abstract

In smart power grids, electricity theft causes huge economic losses to electrical utility companies. Machine learning (ML), especially deep neural network (DNN) models hold state-of-the-art performance in detecting electricity theft cyberattacks. However, DNN models are vulnerable to adversarial attacks, i.e., evasion attacks. In this work, we study the vulnerability of the DNN-based electricity theft detectors against evasion attacks and the influence of the model's regularization (generalization) on robustness. We cluster the power consumers and train a detector for each cluster, and compare the performance and robustness of this detector to a global detector that is trained on all the consumers, data. The results indicate that the cluster-based detector is not only more robust against evasion attacks but also enhances normal classification accuracy because its training data has more consumption pattern similarity compared to the training data of the global detector which requires higher level of regularization. Moreover, unlike the existing solutions that sacrifice the normal accuracy of the model to improve the robustness against evasion attacks, the proposed cluster-based detector holds state-of-the-art performance in both robustness and accuracy.

Topics & Concepts

Computer scienceComputer securityEvasion (ethics)Cluster (spacecraft)DetectorComputer networkTelecommunicationsImmune systemImmunologyBiologyElectricity Theft Detection TechniquesSmart Grid Security and ResilienceElectrical Fault Detection and Protection
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