Design of a simplified adaptive fuzzy backstepping control for uncertain discrete-time nonlinear systems |
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Authors: | Toshio Yoshimura |
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Affiliation: | 1. Department of Mechanical Engineering, The University of Tokushima, Tokushima, Japany-toshio@mxi.netwave.or.jp |
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Abstract: | This paper presents a simplified adaptive fuzzy backstepping control for uncertain discrete-time nonlinear systems. It is assumed that the systems are described by a discrete-time equation with nonlinear uncertainties to be viewed as the modelling errors and the unknown external disturbances, and the states are observed with measurement noises. To design the simplified adaptive fuzzy backstepping control, the modelling errors are approximated by using the fuzzy inference approach based on the extended single-input rule modules, and the estimates for the unmeasurable states and the adjustable parameters are derived by using the weighted and its simplified weighted least squares estimators. It is proved that the states are ultimately bounded, and the estimation errors remain in the vicinity of zero. The effectiveness of the proposed approach is indicated through the simulation experiment of a simple numerical system. |
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Keywords: | adaptive fuzzy backstepping control discrete-time nonlinear system uncertainties fuzzy IF–THEN rules single-input rule modules universal approximation theorem weighted and its simplified weighted least squares estimators |
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