Litcius/Paper detail

Accurate Automata-Based Detection of Cyber Threats in Smart Grid Communication

Vojtěch Havlena, Petr Matoušek, Ondřej Ryšavý, Lukáš Holík

2022IEEE Transactions on Smart Grid17 citationsDOI

Abstract

Several industry sectors, including critical infrastructure, have experienced severe cyber attacks against their Industrial Control Systems (ICS) due to the malware that masqueraded itself as a legitimate ICS process and communicated with valid ICS messages. Such behavior is difficult to detect by standard techniques. Intrusion Detection Systems (IDS) usually filter illegitimate communication using pre-defined patterns while statistical-based Anomaly Detection Systems (ADS) mostly observe selected attributes of transmitted packets without deeper analysis of ICS messages. We propose a new detection approach based on Deterministic Probabilistic Automata (DPAs) that capture the intended semantics of the ICS message exchange. The method models normal ICS message sequences using a set of DPAs representing expected traffic patterns. Then the detection system applies reasoning about the model to reveal a malicious activity in the ICS traffic expressed by unexpected ICS messages. In this paper, we significantly improve the performance of the automata-based detection method and reduce its false-positive rate. We also present a technique that produces additional details about detected anomalies, which is important for real-world deployment. The approach is demonstrated on IEC 104 or MMS communication from different ICS systems.

Topics & Concepts

Computer scienceIntrusion detection systemAnomaly detectionProbabilistic logicAutomatonIndustrial control systemNetwork packetProcess (computing)Software deploymentFilter (signal processing)MalwareDistributed computingComputer securityData miningTheoretical computer scienceArtificial intelligenceControl (management)Software engineeringOperating systemComputer visionSmart Grid Security and ResilienceNetwork Security and Intrusion DetectionElectricity Theft Detection Techniques