Adaptive neural finite-time control of nonlinear systems subject to sensor hysteresis

Adaptive neural finite-time control of nonlinear systems subject to sensor hysteresis

In this paper, an adaptive neural control scheme is proposed for a class of unknown nonlinear systems with unknown sensor hysteresis. The radial basis function neural networks are employed to approximate the unknown nonlinearities and the backstepping technique is implemented to construct controller...

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Veröffentlicht in:Journal of the Franklin Institute 2022-05, Vol.359 (7), p.2932-2948
Hauptverfasser: Lv, Wenshun, Lu, Junwei, Li, Yongmin, Chu, Yuming, Xu, Shengyuan
Format: Artikel
Sprache:eng
Schlagworte:
Adaptive control
Control systems
Feedback control
Hysteresis
Neural networks
Nonlinear control
Nonlinear systems
Nonlinearity
Numerical analysis
Radial basis function
Sensors
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Zusammenfassung:In this paper, an adaptive neural control scheme is proposed for a class of unknown nonlinear systems with unknown sensor hysteresis. The radial basis function neural networks are employed to approximate the unknown nonlinearities and the backstepping technique is implemented to construct controllers. The difficulty of the control design lies in that the genuine states of the system are not available for feedback, which is caused by sensor hysteresis. The proposed control scheme eventually ensures the practical finite-time stability of the closed-loop system, which is proved by the Lyapunov theory. A numerical simulation example is included to verify the effectiveness of the developed approach.
ISSN:0016-0032
1879-2693
0016-0032
DOI:10.1016/j.jfranklin.2022.02.032