4.8 Article

Reliable H∞ fuzzy control for continuous-time nonlinear systems with actuator failures

期刊

IEEE TRANSACTIONS ON FUZZY SYSTEMS
卷 14, 期 5, 页码 609-618

出版社

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TFUZZ.2006.876723

关键词

actuator failures; fuzzy control; H-infinity disturbance attenuation; linear matrix inequality (LMI); nonlinear systems; reliable control

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This paper is concerned with the design of reliable H-infinity fuzzy controllers for continuous-time nonlinear systems with actuator failures. The Takagi and Sugeno fuzzy model is employed to represent a nonlinear system. The objective is to find a stabilizing state-feedback fuzzy controller such that the nominal H-infinity performance is optimized while satisfying a prescribed H-infinity performance constraint in the actuator failure cases. Based on the linear matrix inequality (LMI) techniques, two efficient methods for the design of a suboptimal reliable H-infinity fuzzy controller are proposed. Different Lyapunov functions are used during the design for the nominal and actuator failure cases, which lead to a less conservative controller design. In the first method, a single Lyapunov function is used for the actuator failure cases. The second method adopts a parameter-dependent Lyapunov function for the actuator failure cases, which further reduces the conservatism of the design. Finally, numerical simulations on the chaotic Rossler system are given to illustrate the effectiveness of the proposed design methods.

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