An analysis of parameter variations of disturbance observer for haptic motion control

Hideyuki Kobayashi; Seiichiro Katsura; Kouhei Ohnishi

doi:10.1109/IECON.2005.1569196

An analysis of parameter variations of disturbance observer for haptic motion control

Hideyuki Kobayashi, Seiichiro Katsura, Kouhei Ohnishi

Department of System Design Engineering

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

14 Citations (Scopus)

Abstract

Recent machines are hoped to have a haptic ability to work in open environment. Haptic motion control is based on position control and force control. To realize the position control and especially force control, the attainment of robustness is essential. This paper selects a disturbance observer to attain the robust acceleration control. A disturbance observer identifies the total mechanical load torque and parameter variations. The aim of this paper is to analyze a disturbance observer with the focus on parameter variations. Parameter variations have an influence on the cut-off frequency of bandwidth where robustness is assured and the stability of control system. This paper shows that the cut-off frequency depends on parameter variations. This paper focuses on the self-inertia variation and analyzes the stability of the position control system and the force control system. The design method of observer gains is also proposed.

Original language	English
Title of host publication	IECON 2005
Subtitle of host publication	31st Annual Conference of IEEE Industrial Electronics Society
Pages	1907-1912
Number of pages	6
DOIs	https://doi.org/10.1109/IECON.2005.1569196
Publication status	Published - 2005 Dec 1
Event	IECON 2005: 31st Annual Conference of IEEE Industrial Electronics Society - Raleigh, NC, United States Duration: 2005 Nov 6 → 2005 Nov 10

Publication series

Name	IECON Proceedings (Industrial Electronics Conference)
Volume	2005

Other

Other	IECON 2005: 31st Annual Conference of IEEE Industrial Electronics Society
Country/Territory	United States
City	Raleigh, NC
Period	05/11/6 → 05/11/10

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

Access to Document

10.1109/IECON.2005.1569196

Cite this

An analysis of parameter variations of disturbance observer for haptic motion control. / Kobayashi, Hideyuki; Katsura, Seiichiro; Ohnishi, Kouhei.
IECON 2005: 31st Annual Conference of IEEE Industrial Electronics Society. 2005. p. 1907-1912 1569196 (IECON Proceedings (Industrial Electronics Conference); Vol. 2005).

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

Kobayashi, H, Katsura, S & Ohnishi, K 2005, An analysis of parameter variations of disturbance observer for haptic motion control. in IECON 2005: 31st Annual Conference of IEEE Industrial Electronics Society., 1569196, IECON Proceedings (Industrial Electronics Conference), vol. 2005, pp. 1907-1912, IECON 2005: 31st Annual Conference of IEEE Industrial Electronics Society, Raleigh, NC, United States, 05/11/6. https://doi.org/10.1109/IECON.2005.1569196

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AB - Recent machines are hoped to have a haptic ability to work in open environment. Haptic motion control is based on position control and force control. To realize the position control and especially force control, the attainment of robustness is essential. This paper selects a disturbance observer to attain the robust acceleration control. A disturbance observer identifies the total mechanical load torque and parameter variations. The aim of this paper is to analyze a disturbance observer with the focus on parameter variations. Parameter variations have an influence on the cut-off frequency of bandwidth where robustness is assured and the stability of control system. This paper shows that the cut-off frequency depends on parameter variations. This paper focuses on the self-inertia variation and analyzes the stability of the position control system and the force control system. The design method of observer gains is also proposed.

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An analysis of parameter variations of disturbance observer for haptic motion control

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