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Sliding mode control for chaotic systems based on LMI

โœ Scribed by Hua Wang; Zheng-zhi Han; Qi-yue Xie; Wei Zhang

Publisher
Elsevier Science
Year
2009
Tongue
English
Weight
256 KB
Volume
14
Category
Article
ISSN
1007-5704

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โœฆ Synopsis

This paper investigates the chaos control problem for a general class of chaotic systems. A feedback controller is established to guarantee asymptotical stability of the chaotic systems based on the sliding mode control theory. A new reaching law is introduced to solve the chattering problem that is produced by traditional sliding mode control. A dynamic compensator is designed to improve the performance of the closed-loop system in sliding mode, and its parameter is obtained from a linear matrix inequality (LMI). Simulation results for the well known Chua's circuit and Lorenz chaotic system are provided to illustrate the effectiveness of the proposed scheme.

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This paper considers the sliding mode control of uncertain systems with single or multiple, constant or time-varying state-delays, submitted to additive perturbations. The sliding surface is designed so to maximize the calculable set of admissible delays. The conditions for the existence of the slid