Pose regulation of robot manipulators with dynamic friction compensation

Javier Moreno; Rafael Kelly

doi:10.1109/CDC.2005.1582849

Pose regulation of robot manipulators with dynamic friction compensation

Javier Moreno, Rafael Kelly

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

7 Scopus citations

Abstract

The regulation of end-effector pose of manipulators is addressed in this paper. We present a solution to the operational space pose regulation considering dynamic friction at the robot joints. It is assumed the exact knowledge of the dynamic and kinematic parameters of the robot, including those of the friction. The controller proposed for the pose regulation problem is based on the resolved acceleration control scheme. Experimental results on a two degrees-of-freedom direct-drive arm support the accuracy of the proposed method.

Original language	English
Title of host publication	Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05
Pages	4368-4372
Number of pages	5
DOIs	https://doi.org/10.1109/CDC.2005.1582849
State	Published - 2005
Externally published	Yes
Event	44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05 - Seville, Spain Duration: 12 Dec 2005 → 15 Dec 2005

Publication series

Name	Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05
Volume	2005

Conference

Conference	44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05
Country/Territory	Spain
City	Seville
Period	12/12/05 → 15/12/05

Keywords

Friction observer
Resolved acceleration control
Robot pose regulation
Stability

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10.1109/CDC.2005.1582849

Cite this

Moreno, J., & Kelly, R. (2005). Pose regulation of robot manipulators with dynamic friction compensation. In Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05 (pp. 4368-4372). Article 1582849 (Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05; Vol. 2005). https://doi.org/10.1109/CDC.2005.1582849

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title = "Pose regulation of robot manipulators with dynamic friction compensation",

abstract = "The regulation of end-effector pose of manipulators is addressed in this paper. We present a solution to the operational space pose regulation considering dynamic friction at the robot joints. It is assumed the exact knowledge of the dynamic and kinematic parameters of the robot, including those of the friction. The controller proposed for the pose regulation problem is based on the resolved acceleration control scheme. Experimental results on a two degrees-of-freedom direct-drive arm support the accuracy of the proposed method.",

keywords = "Friction observer, Resolved acceleration control, Robot pose regulation, Stability",

author = "Javier Moreno and Rafael Kelly",

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booktitle = "Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05",

note = "44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05 ; Conference date: 12-12-2005 Through 15-12-2005",

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Moreno, J & Kelly, R 2005, Pose regulation of robot manipulators with dynamic friction compensation. in Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05., 1582849, Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05, vol. 2005, pp. 4368-4372, 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05, Seville, Spain, 12/12/05. https://doi.org/10.1109/CDC.2005.1582849

Pose regulation of robot manipulators with dynamic friction compensation. / Moreno, Javier; Kelly, Rafael.
Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05. 2005. p. 4368-4372 1582849 (Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05; Vol. 2005).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Kelly, Rafael

PY - 2005

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N2 - The regulation of end-effector pose of manipulators is addressed in this paper. We present a solution to the operational space pose regulation considering dynamic friction at the robot joints. It is assumed the exact knowledge of the dynamic and kinematic parameters of the robot, including those of the friction. The controller proposed for the pose regulation problem is based on the resolved acceleration control scheme. Experimental results on a two degrees-of-freedom direct-drive arm support the accuracy of the proposed method.

AB - The regulation of end-effector pose of manipulators is addressed in this paper. We present a solution to the operational space pose regulation considering dynamic friction at the robot joints. It is assumed the exact knowledge of the dynamic and kinematic parameters of the robot, including those of the friction. The controller proposed for the pose regulation problem is based on the resolved acceleration control scheme. Experimental results on a two degrees-of-freedom direct-drive arm support the accuracy of the proposed method.

KW - Friction observer

KW - Resolved acceleration control

KW - Robot pose regulation

KW - Stability

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DO - 10.1109/CDC.2005.1582849

M3 - Contribución a la conferencia

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SN - 0780395689

SN - 9780780395688

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T2 - 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05

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Moreno J, Kelly R. Pose regulation of robot manipulators with dynamic friction compensation. In Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05. 2005. p. 4368-4372. 1582849. (Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference, CDC-ECC '05). doi: 10.1109/CDC.2005.1582849

Pose regulation of robot manipulators with dynamic friction compensation

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