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Sliding Mode Control of Two-Parameter Fourth-Order Chaos Model of Power System

Yanling Lv, Yuchen Zhang, Qi Liu, Shuo Wang, Dalei Shi

2021IEEE Transactions on Circuits & Systems II Express Briefs18 citationsDOI

Abstract

As a complex nonlinear system, the power system in operation may experience chaotic oscillation which can threaten the stability of the system for unexpected events and uncertain factors. Initially, through considering factors such as the generators, the power system node voltage amplitude and phase angle, this brief establishes a fourth-order power system dynamic model and a two-parameter fourth-order power system mathematical model with load reactive power and mechanical input power as chaotic parameters to explore the mechanism and characteristics of chaos in the power system with the chaos theory. In addition, a sliding mode controller based on exponential reaching law for four state variables is designed, which is used to suppress the chaotic oscillation of the power system and guarantee the system can work stably at the target operating point within the chaotic parameter range. The designed controller can effectively suppress the chaos in power system and has an ideal performance.

Topics & Concepts

Control theory (sociology)Electric power systemChaoticController (irrigation)Nonlinear systemPower (physics)Oscillation (cell signaling)Synchronization of chaosComputer scienceAmplitudeSliding mode controlPhysicsControl (management)GeneticsQuantum mechanicsArtificial intelligenceAgronomyBiologyChaos control and synchronizationPower System Optimization and StabilityNonlinear Dynamics and Pattern Formation
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