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A new design of sliding mode control systems

chapter
posted on 2011-01-01, 00:00 authored by Z Man, Sui Yang KhooSui Yang Khoo, X Yu, C Miao, J Jin, F Tay
A new sliding mode control technique for a class of SISO dynamic systems is presented in this chapter. It is seen that the stability status of the closed-loop system is first checked, based on the approximation of the most recent information of the first-order derivative of the Lyapunov function of the closed-loop system, an intelligent sliding mode controller can then be designed with the following intelligent features: (i) If the closed-loop system is stable, the correction term in the controller will continuously adjust control signal to drive the closed-loop trajectory to reach the sliding mode surface in a finite time and the desired closed-loop dynamics with the zero-error convergence can then be achieved on the sliding mode surface. (ii) If, however, the closed-loop system is unstable, the correction term is capable of modifying the control signal to continuously reduce the value of the derivative of the Lyapunov function from the positive to the negative and then drives the closed-loop trajectory to reach the sliding mode surface and ensures that the desired closed-loop dynamics can be obtained on the sliding mode surface. The main advantages of this new sliding mode control technique over the conventional one are that no chattering occurs in the sliding mode control system because of the recursive learning control structure; the system uncertainties are embedded in the Lipschitz-like condition and thus, no priori information on the upper and/or the lower bounds of the unknown system parameters and uncertain system dynamics is required for the controller design; the zero-error convergence can be achieved after the closed-loop dynamics reaches the sliding mode surface and remains on it. The performance for controlling a third-order linear system is evaluated in the simulation section to show the effectiveness and efficiency of the new sliding mode control technique.

History

Chapter number

5

Pagination

151-167

ISSN

0170-8643

ISBN-13

9783642221637

ISBN-10

3642221637

Language

eng

Publication classification

B1 Book chapter

Copyright notice

2011, Springer-Verlag Berlin Heidelberg

Extent

21

Editor/Contributor(s)

Fridman L, Iriarte R, Moreno J

Publisher

Springer

Place of publication

Berlin, Germany

Title of book

Sliding modes after the first decade of the 21st century : state of the art

Series

Lecture notes in control and information sciences ; 412

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