Regular Papers
International Journal of Control, Automation, and Systems 2024; 22(7): 2171-2181
https://doi.org/10.1007/s12555-023-0104-5
© The International Journal of Control, Automation, and Systems
Prescribed Performance Control for the Lower Limb Exoskeleton With Time-varying State Constraints and Input Saturation
This paper studies the problem of prescribed performance tracking control for the lower limb exoskeleton under time-varying state constraints and input saturation. A prescribed performance control method is proposed to achieve the specified tracking accuracy within a preset time. Under the framework of system transformation, the control problem with specified performance and state constraints is transformed into the boundedness problem of auxiliary variables. Meanwhile, the hyperbolic tangent function is employed to deal with the input saturation. Through rigorous theoretical analysis, it can conclude that the tracking error converges to a prescribed region near the origin within a given time and all signals of the closed-loop system are bounded. The superiority of this control scheme is verified through a practical simulation example.
Keywords Input saturation, lower limb exoskeleton, prescribed performance control, state constraints.
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Regular Papers
International Journal of Control, Automation, and Systems 2024; 22(7): 2171-2181
Published online July 1, 2024 https://doi.org/10.1007/s12555-023-0104-5
Copyright © The International Journal of Control, Automation, and Systems.
Prescribed Performance Control for the Lower Limb Exoskeleton With Time-varying State Constraints and Input Saturation
Xianlei Zhang, Yan Zhang*, Qing Hu, Xuan Li, and Anjie Yang
Hebei University of Technology
Abstract
This paper studies the problem of prescribed performance tracking control for the lower limb exoskeleton under time-varying state constraints and input saturation. A prescribed performance control method is proposed to achieve the specified tracking accuracy within a preset time. Under the framework of system transformation, the control problem with specified performance and state constraints is transformed into the boundedness problem of auxiliary variables. Meanwhile, the hyperbolic tangent function is employed to deal with the input saturation. Through rigorous theoretical analysis, it can conclude that the tracking error converges to a prescribed region near the origin within a given time and all signals of the closed-loop system are bounded. The superiority of this control scheme is verified through a practical simulation example.
Keywords: Input saturation, lower limb exoskeleton, prescribed performance control, state constraints.
Vol. 23, No. 3, pp. 683~972
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