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Event-Triggered Sliding Mode Load Frequency Control of Multiarea Power Systems Under Periodic Denial-of-Service Attacks

Siwei Qiao, Xinghua Liu, Yuru Liang, Gaoxi Xiao, Yu Kang, Shuzhi Sam Ge

2022IEEE Systems Journal37 citationsDOI

Abstract

A sliding mode load frequency control (SMLFC) problem is committed for interconnected power systems under periodic denial-of-service (DoS) attacks. A suitable sliding surface is designed to deduce the state space equation in the multiarea power systems. An event-triggered device is used to determine whether the sampling state should be transmitted, and a new event-triggered condition is provided to match periodic DoS attacks. By utilizing the multiple Lyapunov–Krasovskii function approach, the globally exponential stability is proved based on matrix inequalities and the exponential stability criterion is subsequently obtained in terms of linear matrix inequalities. A suitable control law is established to ensure the reachability of power system. The feasibility and superiority of the proposed SMLFC are illustrated by numerical examples.

Topics & Concepts

Control theory (sociology)Denial-of-service attackReachabilityElectric power systemExponential stabilityLyapunov functionPower (physics)Stability (learning theory)Sliding mode controlState spaceController (irrigation)Mode (computer interface)Computer scienceMathematicsControl (management)Nonlinear systemTheoretical computer scienceOperating systemArtificial intelligenceWorld Wide WebAgronomyPhysicsStatisticsQuantum mechanicsMachine learningThe InternetBiologyFrequency Control in Power SystemsPower System Optimization and StabilitySmart Grid Security and Resilience
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