Compliant Control Technology of Manipulator-Reference-Cited by-同舟云学术

Compliant Control Technology of Manipulator

Published:2024-03-05 Issue:2 Volume:18 Page:295-301
ISSN:1883-8022
Container-title:International Journal of Automation Technology
language:en
Short-container-title:IJAT

Author:

Wang Xuan¹,Li Guodong¹,Yu Hua¹,Xue Zhigang¹

Affiliation:

1. State Grid Shanxi Electric Power Research Institute, No.6 Qingnian Road, Yingze District, Taiyuan City, Shanxi 030001, China

Abstract

With continuous advancements in science and technology, manipulators have been widely used in human–computer interactions and other fields. However, they are limited by their insufficient flexible interaction ability and the inability of the control algorithm to adapt to changeable task scenarios. In this study, the flexible control technology of a manipulator was investigated to overcome these shortcomings and improve the intelligent level of the manipulator. Specifically, the basic principles and related technologies were applied in developing a dynamic model and analyzing the impedance control technology. Next, the effects of different impedance parameters on the system response characteristics were analyzed. Finally, the simulation experiment was conducted. The results showed that within 15–35 s, the manipulator returned to the target trajectory and continued to complete two rotations of circular trajectory, and the position control was accurate. This study demonstrates the feasibility of rheostatic control of fuzzy impedance in improving the compliance strength of the manipulator

Funder

State Grid Shanxi Electric Power Company Science and Technology Project

Publisher

Fuji Technology Press Ltd.

Reference20 articles.

1. J. Hou, G. Zhang, H. Chai et al., “Bionic foot robot motion planning and motion control technology review,” Robot Ind., Vol.2023, No.4, pp. 20-28, 2023.

2. L. Yuan, X. Zeng, and X. Tao, “Petrochemical oil hanging rail tunnel inspection robot design research,” Robot Ind., Vol.2023, No.4, pp. 83-88, 2023.

3. Y. Liu, Q. Sun, and H. Li, “Research progress of rehabilitation robotic hand in rehabilitation of hand function after stroke,” Rehabilitation, Vol.37, No.7, pp. 430-434, 2022.

4. M. Zhang and T. Huang, “Geometric Inversion Optimization and Trajectory Planning for Lightweight Bionic Robot Arms,” Machinery, Vol.49, No.6, pp. 73-80, 2022 (in Chinese). https://doi.org/CNKI:SUN:MECH.0.2022-06-011.

5. “The Robot is Working Orderly in Fengyang Silicon Valley Intelligent Company of Chuzhou, Anhui,” Mod. Enterprise, Vol.2022, No.6, p. 185, 2022.