Neural network-based adaptive controller design for robotic manipulator subject to varying loads and unknown dead-zone

In this article, aiming at handling the trajectory tracking issue of industrial manipulator system (IMS) with modeling uncertainty, varying loads (VL) and unknown dead-zone characteristic, a compensation-based adaptive switching controller synthesis is proposed. In this scheme, the dynamic model of...

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Published in	Neurocomputing (Amsterdam) Vol. 546; p. 126293
Main Authors	Zhao, Xingqiang, Liu, Zhen, Zhu, Quanmin
Format	Journal Article
Language	English
Published	Elsevier B.V 14.08.2023
Subjects	Neural network Robotic manipulator Switched system Unknown dead-zone Varying loads Varying loads Neural network Robotic manipulator Unknown dead-zone Switched system
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Abstract	In this article, aiming at handling the trajectory tracking issue of industrial manipulator system (IMS) with modeling uncertainty, varying loads (VL) and unknown dead-zone characteristic, a compensation-based adaptive switching controller synthesis is proposed. In this scheme, the dynamic model of the IMS under VL is regarded as a switched system (SS) with a specified modal set. The nonlinear term related to plant model in each subsystem is approximated by radial basis function neural network (RBFNN) so as to avoid the reliance of the controller on the accurate model, and the unknown dead-zone is estimated and compensated by NN, from which the corresponding NN robust compensation term is developed to eliminate the potential perturbations and estimated errors. The designed controller with switching mechanism effectively solves the problem of degradation of the tracking accuracy caused by VL. Finally, the uniform ultimate boundedness of error signals is analyzed by the average dwell time (ADT) approach, multi-Lyapunov function method and the synthesized adaptive control law, and the effectiveness of the developed scheme is verified by simulation.
AbstractList	In this article, aiming at handling the trajectory tracking issue of industrial manipulator system (IMS) with modeling uncertainty, varying loads (VL) and unknown dead-zone characteristic, a compensation-based adaptive switching controller synthesis is proposed. In this scheme, the dynamic model of the IMS under VL is regarded as a switched system (SS) with a specified modal set. The nonlinear term related to plant model in each subsystem is approximated by radial basis function neural network (RBFNN) so as to avoid the reliance of the controller on the accurate model, and the unknown dead-zone is estimated and compensated by NN, from which the corresponding NN robust compensation term is developed to eliminate the potential perturbations and estimated errors. The designed controller with switching mechanism effectively solves the problem of degradation of the tracking accuracy caused by VL. Finally, the uniform ultimate boundedness of error signals is analyzed by the average dwell time (ADT) approach, multi-Lyapunov function method and the synthesized adaptive control law, and the effectiveness of the developed scheme is verified by simulation.
ArticleNumber	126293
Author	Zhu, Quanmin Zhao, Xingqiang Liu, Zhen
Author_xml	– sequence: 1 givenname: Xingqiang surname: Zhao fullname: Zhao, Xingqiang organization: School of Automation, Qingdao University, Qingdao 266071, China – sequence: 2 givenname: Zhen surname: Liu fullname: Liu, Zhen email: zhenliuzz@hotmail.com organization: School of Automation, Qingdao University, Qingdao 266071, China – sequence: 3 givenname: Quanmin surname: Zhu fullname: Zhu, Quanmin organization: Department of Engineering Design and Mathematics, University of the West of England, Bristol BS161QY, UK
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Keywords	Varying loads Neural network Robotic manipulator Unknown dead-zone Switched system
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Snippet	In this article, aiming at handling the trajectory tracking issue of industrial manipulator system (IMS) with modeling uncertainty, varying loads (VL) and...
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StartPage	126293
SubjectTerms	Neural network Robotic manipulator Switched system Unknown dead-zone Varying loads
Title	Neural network-based adaptive controller design for robotic manipulator subject to varying loads and unknown dead-zone
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