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Force Sensorless Admittance Control for Teleoperation of Uncertain Robot Manipulator Using Neural Networks

Yang, Chenguang; Peng, Guangzhu; Cheng, Long; Na, Jing; Li, Zhijun

Authors

Guangzhu Peng

Long Cheng

Jing Na

Zhijun Li



Abstract

In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for interaction between robot manipulators and human arms in physical collision. In this scheme, the trajectory is generated by using geometry vector method with Kinect sensor. To comply with the external torque from the environment, this paper presents a sensorless admittance control approach in joint space based on an observer approach, which is used to estimate external torques applied by the operator. To deal with the tracking problem of the uncertain manipulator, an adaptive controller combined with the radial basis function NN (RBFNN) is designed. The RBFNN is used to compensate for uncertainties in the system. In order to achieve the prescribed tracking precision, an error transformation algorithm is integrated into the controller. The Lyapunov functions are used to analyze the stability of the control system. The experiments on the Baxter robot are carried out to demonstrate the effectiveness and correctness of the proposed control scheme.

Journal Article Type Article
Acceptance Date May 25, 2019
Publication Date Jun 28, 2019
Deposit Date Sep 5, 2019
Publicly Available Date Sep 6, 2019
Journal IEEE Transactions on Systems, Man, and Cybernetics: Systems
Print ISSN 2168-2216
Publisher Institute of Electrical and Electronics Engineers
Peer Reviewed Peer Reviewed
Volume 51
Issue 5
Pages 3282-3292
DOI https://doi.org/10.1109/tsmc.2019.2920870
Keywords Control and Systems Engineering; Human-Computer Interaction; Electrical and Electronic Engineering; Software; Computer Science Applications
Public URL https://uwe-repository.worktribe.com/output/2791823
Contract Date Sep 5, 2019

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