A Joint Space Formulation for Compliant Motion Control of Robot Manipulators

Shen, Yueshi; Hueper, Knut

A Joint Space Formulation for Compliant Motion Control of Robot Manipulators

Date

2005

Authors

Shen, Yueshi

Hueper, Knut

Publisher

Institute of Electrical and Electronics Engineers (IEEE Inc)

Abstract

This paper presents a joint space formulation for robot manipulator's hybrid motion/force control. The motivations come from 1) extending the previous work to general (either constrained or redundant) robots; and 2) improving the robustness against disturbances originated at the joint level. Contact geometry and closed-loop dynamics will be derived in this paper, also a joint space hybrid control scheme will be proposed. At the end, we show some simulation results to verify the applicability of our theory on a constrained (4-degree-of-freedom) robot WAM.

Keywords

Keywords: Closed loop control systems; Computer simulation; Force control; Manipulators; Robots; Robustness (control systems); Closed-loop dynamics; Compliant motion control; Joint space; Projectors; Robot manipulators; Motion control Compliant motion control; Hybrid motion/force control; Joint space; Projector; Robot manipulator

URI

http://hdl.handle.net/1885/80557

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ANU Research Publications

Source

Proceedings of the IEEE International Conference on Mechatronics and Automation

Type

Conference paper

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A Joint Space Formulation for Compliant Motion Control of Robot Manipulators

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