Adaptive dynamic surface control of a hypersonic flight vehicle with improved tracking |
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Authors: | Waseem Aslam Butt Lin Yan Amezquita S. Kendrick |
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Affiliation: | School of Automation, Beijing University of Aeronautics and Astronautics, Beijing, China 100191 |
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Abstract: | This work presents a nonlinear adaptive dynamic surface air speed and a flight path angle control design procedure for the longitudinal dynamics of a generic hypersonic flight vehicle. The proposed design scheme takes into account the magnitude, rate, and bandwidth constraints on the actuator signals. A new approach is used to enhance tracking performance and avoid a large initial control signal. The uncertain nonlinear functions in the flight vehicle model are approximated by using radial basis function neural networks. A detailed stability analysis of the designed controllers shows that all the signals of the closed‐loop system are uniformly ultimately bounded. The robust performance of the design scheme is verified through numerical simulations of the flight vehicle model for various parameter variation test cases. Copyright © 2011 John Wiley and Sons Asia Pte Ltd and Chinese Automatic Control Society |
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Keywords: | Aircraft adaptive control dynamic surface control neural networks nonlinear systems |
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