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Adaptive Neural Network Fixed-Time Control Design for Bilateral Teleoperation With Time Delay

Shuang Zhang, Shuo Yuan, Xinbo Yu, Linghuan Kong, Qing Li, Guang Li

2021IEEE Transactions on Cybernetics67 citationsDOIOpen Access PDF

Abstract

In this article, subject to time-varying delay and uncertainties in dynamics, we propose a novel adaptive fixed-time control strategy for a class of nonlinear bilateral teleoperation systems. First, an adaptive control scheme is applied to estimate the upper bound of delay, which can resolve the predicament that delay has significant impacts on the stability of bilateral teleoperation systems. Then, radial basis function neural networks (RBFNNs) are utilized for estimating uncertainties in bilateral teleoperation systems, including dynamics, operator, and environmental models. Novel adaptation laws are introduced to address systems' uncertainties in the fixed-time convergence settings. Next, a novel adaptive fixed-time neural network control scheme is proposed. Based on the Lyapunov stability theory, the bilateral teleoperation systems are proved to be stable in fixed time. Finally, simulations and experiments are presented to verify the validity of the control algorithm.

Topics & Concepts

TeleoperationControl theory (sociology)Artificial neural networkComputer scienceControl (management)Real-time computingArtificial intelligenceTeleoperation and Haptic SystemsVirtual Reality Applications and Impacts