Chaos synchronization of uncertain chaotic systems using composite nonlinear feedback based integral sliding mode control |
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Affiliation: | Electrical Engineering Department, University of Zanjan, P.O. Box 38791-45371, Zanjan, Iran |
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Abstract: | This paper proposes a combination of composite nonlinear feedback and integral sliding mode techniques for fast and accurate chaos synchronization of uncertain chaotic systems with Lipschitz nonlinear functions, time-varying delays and disturbances. The composite nonlinear feedback method allows accurate following of the master chaotic system and the integral sliding mode control provides invariance property which rejects the perturbations and preserves the stability of the closed-loop system. Based on the Lyapunov- Krasovskii stability theory and linear matrix inequalities, a novel sufficient condition is offered for the chaos synchronization of uncertain chaotic systems. This method not only guarantees the robustness against perturbations and time-delays, but also eliminates reaching phase and avoids chattering problem. Simulation results demonstrate that the suggested procedure leads to a great control performance. |
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Keywords: | Chaos synchronization Integral sliding mode Linear matrix inequality Composite nonlinear feedback Time-delay |
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