Transmission of real world force sensation by micro/macro bilateral control based on acceleration control with standardization matrix

Tomoyuki Shimono; Seiichiro Katsura; Shigeru Susa; Takayoshi Takei; Kouhei Ohnishi

doi:10.1541/ieejias.128.726

Transmission of real world force sensation by micro/macro bilateral control based on acceleration control with standardization matrix

Tomoyuki Shimono, Seiichiro Katsura, Shigeru Susa, Takayoshi Takei, Kouhei Ohnishi

Department of System Design Engineering

Research output: Contribution to journal › Article › peer-review

37 Citations (Scopus)

Abstract

This paper proposes novel micro/macro bilateral control based on acceleration control with standardization matrix. In bilateral control, force control and position control should be realized simultaneously. However, they are not able to be realized in one real axis at the same time. Thus, force control and position control are realized in virtual mode space in this paper. Then, the proposed standardization matrix is able to harmonize the standard of macro master system with the standard of micro slave system in the virtual mode space. With the proposed method, the transmission of force sensation from the real micro environment is realized. The experimental results are shown to verify the viability of the proposed method.

Original language	English
Pages (from-to)	726-732+6
Journal	ieej transactions on industry applications
Volume	128
Issue number	6
DOIs	https://doi.org/10.1541/ieejias.128.726
Publication status	Published - 2008 Dec 1

Keywords

Acceleration control
Disturbance observer
Force sensation
Haptics
Micro/macro bilateral control
Motion control

ASJC Scopus subject areas

Industrial and Manufacturing Engineering
Electrical and Electronic Engineering

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10.1541/ieejias.128.726

Cite this

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title = "Transmission of real world force sensation by micro/macro bilateral control based on acceleration control with standardization matrix",

abstract = "This paper proposes novel micro/macro bilateral control based on acceleration control with standardization matrix. In bilateral control, force control and position control should be realized simultaneously. However, they are not able to be realized in one real axis at the same time. Thus, force control and position control are realized in virtual mode space in this paper. Then, the proposed standardization matrix is able to harmonize the standard of macro master system with the standard of micro slave system in the virtual mode space. With the proposed method, the transmission of force sensation from the real micro environment is realized. The experimental results are shown to verify the viability of the proposed method.",

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year = "2008",

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AU - Shimono, Tomoyuki

AU - Katsura, Seiichiro

AU - Susa, Shigeru

AU - Takei, Takayoshi

AU - Ohnishi, Kouhei

PY - 2008/12/1

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N2 - This paper proposes novel micro/macro bilateral control based on acceleration control with standardization matrix. In bilateral control, force control and position control should be realized simultaneously. However, they are not able to be realized in one real axis at the same time. Thus, force control and position control are realized in virtual mode space in this paper. Then, the proposed standardization matrix is able to harmonize the standard of macro master system with the standard of micro slave system in the virtual mode space. With the proposed method, the transmission of force sensation from the real micro environment is realized. The experimental results are shown to verify the viability of the proposed method.

AB - This paper proposes novel micro/macro bilateral control based on acceleration control with standardization matrix. In bilateral control, force control and position control should be realized simultaneously. However, they are not able to be realized in one real axis at the same time. Thus, force control and position control are realized in virtual mode space in this paper. Then, the proposed standardization matrix is able to harmonize the standard of macro master system with the standard of micro slave system in the virtual mode space. With the proposed method, the transmission of force sensation from the real micro environment is realized. The experimental results are shown to verify the viability of the proposed method.

KW - Acceleration control

KW - Disturbance observer

KW - Force sensation

KW - Haptics

KW - Micro/macro bilateral control

KW - Motion control

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Transmission of real world force sensation by micro/macro bilateral control based on acceleration control with standardization matrix

Abstract

Keywords

ASJC Scopus subject areas

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