Recursive back-stepping design of an adaptive fuzzy controller for strict output feedback nonlinear systems

No Thumbnail Available

Date

2002-09-01

Authors

W.-Y. Wang
M.-L. Chan
T.-T. Lee
C.-H. Liu

Journal Title

Journal ISSN

Volume Title

Publisher

ACA (Asian Control Association) and CACS (Chinese Automatic Control Society)�

Abstract

In this paper, a back-stepping adaptive fuzzy controller is proposed for strict output feedback nonlinear systems. The unknown nonlinearity and external disturbances of such systems are considered. We assume that only the output of the system is available for measurement. As a result, two filters are constructed to estimate the states of strict output feedback systems. Since fuzzy systems can uniformly approximate nonlinear continuous functions to arbitrary accuracy, the adaptive fuzzy control theory combined with a tuning function scheme is developed to derive the control laws of strict output feedback systems that possess unknown functions. Moreover, the H∞ performance condition is introduced to attenuate the effect of the modeling error and external disturbances. Finally, an example is simulated in order to confirm the applicability of the proposed method.

Description

Keywords

Citation

Collections