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- Publisher
- Wiley
- Copyright
- © 2023 Chinese Automatic Control Society and John Wiley & Sons Australia, Ltd
- ISSN
- 1561-8625
- eISSN
- 1934-6093
- DOI
- 10.1002/asjc.3116
- Publisher site
- See Article on Publisher Site
Abstract
In existing adaptive neural control approaches, only when the regressor satisfies the persistent excitation (PE) or interval excitation (IE) conditions, the constant optimal weights of neural network (NN) can be identified, which can be used to establish uncertainties in nonlinear systems. This paper proposes a novel composite learning approach based on adaptive neural control. The focus of this approach is to make the NN approximate uncertainties in nonlinear systems quickly and accurately without identifying the constant optimal weights of the NN. Hence, the regressor does not need to satisfy the PE or IE conditions. In this paper, regressor filtering scheme is adopted to generate prediction error, and then the prediction error and tracking error simultaneously drive the update of NN weights. Under the framework of Lyapulov theory, the proposed composite learning approach can ensure that approximation error of the uncertainty and tracking error of the system states converge to an arbitrarily small neighborhood of zero exponentially. The simulation results verify the effectiveness and advantages of the proposed approach in terms of fast approximation.
Journal
Asian Journal of Control – Wiley
Published: Nov 1, 2023
Keywords: adaptive neural control; composite learning; exponential convergence; neural network; uncertain nonlinear system