TY - GEN
T1 - Robust flight control system using neural networks
T2 - International Conference on Control, Automation and Systems, ICCAS 2010
AU - Lee, Ju Won
AU - Park, Jin Bae
AU - Choi, Yoon Ho
PY - 2010
Y1 - 2010
N2 - In this paper, we propose an adaptive control method for micro aerial vehicle(MAV) flight system with model uncertainties. The proposed control system is constructed by the combination of the adaptive dynamic surface control(ADSC) technique and the self recurrent wavelet neural network(SRWNN). The ADSC technique which make the virtual controller using the first order filter provides us with the ability to overcome the explosion of complexity problems of the backstepping controller. The SRWNNs are used to observe the arbitrary model uncertainties of MAV flight system, and all their weights are trained on-line. From the Lyapunov stability theory, we derive the on-line tuning algorithms for all weights of SRWNNs and prove that all signals of a closed-loop system are uniformly ultimately bounded(UUB). Finally, we perform simulations to demonstrate the tracking performance and robustness of the proposed MAV control system during the pursuit guidance landing.
AB - In this paper, we propose an adaptive control method for micro aerial vehicle(MAV) flight system with model uncertainties. The proposed control system is constructed by the combination of the adaptive dynamic surface control(ADSC) technique and the self recurrent wavelet neural network(SRWNN). The ADSC technique which make the virtual controller using the first order filter provides us with the ability to overcome the explosion of complexity problems of the backstepping controller. The SRWNNs are used to observe the arbitrary model uncertainties of MAV flight system, and all their weights are trained on-line. From the Lyapunov stability theory, we derive the on-line tuning algorithms for all weights of SRWNNs and prove that all signals of a closed-loop system are uniformly ultimately bounded(UUB). Finally, we perform simulations to demonstrate the tracking performance and robustness of the proposed MAV control system during the pursuit guidance landing.
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M3 - Conference contribution
AN - SCOPUS:78751481472
SN - 9781424474530
T3 - ICCAS 2010 - International Conference on Control, Automation and Systems
SP - 657
EP - 662
BT - ICCAS 2010 - International Conference on Control, Automation and Systems
Y2 - 27 October 2010 through 30 October 2010
ER -