Motile cell galvanotaxis control using high-speed tracking system

Naoko Ogawa; Hiromasa Oku; Koichi Hashimoto; Masatoshi Ishikawa

Motile cell galvanotaxis control using high-speed tracking system

Naoko Ogawa, Hiromasa Oku, Koichi Hashimoto, Masatoshi Ishikawa

研究成果: Conference article › 査読

抄録

We propose a control system of motile cells. Our goal is to construct a large-scale Organized Bio-Modules (OBM) in which microorganisms are controlled as micro-size smart robots in an organized way. For the first step, we have developed & visual feedback control system of Paramecium caudatum cells. Tracking method is used for observation of moving cells with high magnification. Cells swim in a chamber and their positions are measured by high-speed vision. The chamber position is visually controlled to track a specific cell. The cell motion is controlled electrically by utilizing the galvanotaxis (intrinsic reaction to electrical stimulus) of microorganisms. Experimental results of region-trapping demonstrate the possibility of the OBM system.

本文言語	English
ページ（範囲）	1646-1651
ページ数	6
ジャーナル	Proceedings - IEEE International Conference on Robotics and Automation
巻	2004
号	2
出版ステータス	Published - 2004 7月 5
外部発表	はい
イベント	Proceedings- 2004 IEEE International Conference on Robotics and Automation - New Orleans, LA, United States 継続期間: 2004 4月 26 → 2004 5月 1

ASJC Scopus subject areas

ソフトウェア
制御およびシステム工学
人工知能
電子工学および電気工学

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引用スタイル

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title = "Motile cell galvanotaxis control using high-speed tracking system",

abstract = "We propose a control system of motile cells. Our goal is to construct a large-scale Organized Bio-Modules (OBM) in which microorganisms are controlled as micro-size smart robots in an organized way. For the first step, we have developed & visual feedback control system of Paramecium caudatum cells. Tracking method is used for observation of moving cells with high magnification. Cells swim in a chamber and their positions are measured by high-speed vision. The chamber position is visually controlled to track a specific cell. The cell motion is controlled electrically by utilizing the galvanotaxis (intrinsic reaction to electrical stimulus) of microorganisms. Experimental results of region-trapping demonstrate the possibility of the OBM system.",

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author = "Naoko Ogawa and Hiromasa Oku and Koichi Hashimoto and Masatoshi Ishikawa",

year = "2004",

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language = "English",

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journal = "Proceedings - IEEE International Conference on Robotics and Automation",

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number = "2",

note = "Proceedings- 2004 IEEE International Conference on Robotics and Automation ; Conference date: 26-04-2004 Through 01-05-2004",

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TY - JOUR

T1 - Motile cell galvanotaxis control using high-speed tracking system

AU - Ogawa, Naoko

AU - Oku, Hiromasa

AU - Hashimoto, Koichi

AU - Ishikawa, Masatoshi

PY - 2004/7/5

Y1 - 2004/7/5

N2 - We propose a control system of motile cells. Our goal is to construct a large-scale Organized Bio-Modules (OBM) in which microorganisms are controlled as micro-size smart robots in an organized way. For the first step, we have developed & visual feedback control system of Paramecium caudatum cells. Tracking method is used for observation of moving cells with high magnification. Cells swim in a chamber and their positions are measured by high-speed vision. The chamber position is visually controlled to track a specific cell. The cell motion is controlled electrically by utilizing the galvanotaxis (intrinsic reaction to electrical stimulus) of microorganisms. Experimental results of region-trapping demonstrate the possibility of the OBM system.

AB - We propose a control system of motile cells. Our goal is to construct a large-scale Organized Bio-Modules (OBM) in which microorganisms are controlled as micro-size smart robots in an organized way. For the first step, we have developed & visual feedback control system of Paramecium caudatum cells. Tracking method is used for observation of moving cells with high magnification. Cells swim in a chamber and their positions are measured by high-speed vision. The chamber position is visually controlled to track a specific cell. The cell motion is controlled electrically by utilizing the galvanotaxis (intrinsic reaction to electrical stimulus) of microorganisms. Experimental results of region-trapping demonstrate the possibility of the OBM system.

KW - Control

KW - Galvanotaxis

KW - Organized Bio-Modules

KW - Paramecium

KW - Tracking

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M3 - Conference article

AN - SCOPUS:3042624547

SN - 1050-4729

VL - 2004

SP - 1646

EP - 1651

JO - Proceedings - IEEE International Conference on Robotics and Automation

JF - Proceedings - IEEE International Conference on Robotics and Automation

IS - 2

T2 - Proceedings- 2004 IEEE International Conference on Robotics and Automation

Y2 - 26 April 2004 through 1 May 2004

ER -

Motile cell galvanotaxis control using high-speed tracking system

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ASJC Scopus subject areas

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