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Delay-Dependent Stability for Load Frequency Control System via Linear Operator Inequality

Changchun Hua, Yibo Wang

2020IEEE Transactions on Cybernetics59 citationsDOI

Abstract

The stability analysis problem is considered for multiarea load frequency control (LFC) systems with electric vehicles (EVs) and time delays. The novel linear operator inequality approach is proposed and a less conservative delay-dependent stability condition is achieved. First, the model of the multiarea LFC system with EVs and delays is expressed by the partial integral equation (PIE) at the first time. Then, a complete quadratic Lyapunov-Krasovskii functional is built in the form of an inner product of the linear partial integral (PI) operator. The novel stability criteria with less conservatism are proposed in the form of linear operator inequality. Moreover, the relationships between the delay margins and the controller parameters are shown. Finally, the simulations are conducted on both one-area and two-area LFC systems to show the effectiveness of the proposed approach.

Topics & Concepts

Control theory (sociology)Operator (biology)MathematicsController (irrigation)Stability (learning theory)Quadratic equationPID controllerAutomatic frequency controlControl (management)Computer scienceEngineeringControl engineeringTemperature controlMachine learningArtificial intelligenceAgronomyGeometryTelecommunicationsTranscription factorBiochemistryGeneRepressorBiologyChemistryFrequency Control in Power SystemsMicrogrid Control and OptimizationPower System Optimization and Stability
Delay-Dependent Stability for Load Frequency Control System via Linear Operator Inequality | Litcius