Observability of cell stiffness in micro-channel method

Chia-Hung Tsai; Makoto Kaneko; Shinya Sakuma; Fumihito Arai

doi:10.1109/ICRA.2013.6630965

Observability of cell stiffness in micro-channel method

Chia-Hung Tsai, Makoto Kaneko, Shinya Sakuma, Fumihito Arai

Department of Mechanical Engineering

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

6 Scopus citations

Abstract

This paper discusses the observability of cell stiffness by utilizing a micro-channel whose diameter is slightly smaller than that of a cell. By modeling each cell with distributed springs and dampers, we discuss how many sensing points are necessary and sufficient for evaluating cell stiffness. We define the observability by the velocity of each cell through a micro-channel based upon the experimental observation that the equilibrium velocity of a cell varies corresponding to its stiffness. We conclude that for evaluating cell stiffness, two points are necessary and sufficient while using an infinitely long channel, and three are necessary and sufficient for judging whether cell stiffness is observable or not. This study attempts to provide a practical guidance for developing a simpler, faster, low-cost sensor in the future.

Original language	English
Title of host publication	2013 IEEE International Conference on Robotics and Automation, ICRA 2013
Pages	2807-2813
Number of pages	7
DOIs	https://doi.org/10.1109/ICRA.2013.6630965
State	Published - 2013
Event	2013 IEEE International Conference on Robotics and Automation, ICRA 2013 - Karlsruhe, Germany Duration: 6 May 2013 → 10 May 2013

Publication series

Name	Proceedings - IEEE International Conference on Robotics and Automation
ISSN (Print)	1050-4729

Conference

Conference	2013 IEEE International Conference on Robotics and Automation, ICRA 2013
Country/Territory	Germany
City	Karlsruhe
Period	6/05/13 → 10/05/13

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10.1109/ICRA.2013.6630965

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title = "Observability of cell stiffness in micro-channel method",

abstract = "This paper discusses the observability of cell stiffness by utilizing a micro-channel whose diameter is slightly smaller than that of a cell. By modeling each cell with distributed springs and dampers, we discuss how many sensing points are necessary and sufficient for evaluating cell stiffness. We define the observability by the velocity of each cell through a micro-channel based upon the experimental observation that the equilibrium velocity of a cell varies corresponding to its stiffness. We conclude that for evaluating cell stiffness, two points are necessary and sufficient while using an infinitely long channel, and three are necessary and sufficient for judging whether cell stiffness is observable or not. This study attempts to provide a practical guidance for developing a simpler, faster, low-cost sensor in the future.",

author = "Chia-Hung Tsai and Makoto Kaneko and Shinya Sakuma and Fumihito Arai",

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doi = "10.1109/ICRA.2013.6630965",

language = "English",

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

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note = "2013 IEEE International Conference on Robotics and Automation, ICRA 2013 ; Conference date: 06-05-2013 Through 10-05-2013",

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Tsai, C-H, Kaneko, M, Sakuma, S & Arai, F 2013, Observability of cell stiffness in micro-channel method. in 2013 IEEE International Conference on Robotics and Automation, ICRA 2013., 6630965, Proceedings - IEEE International Conference on Robotics and Automation, pp. 2807-2813, 2013 IEEE International Conference on Robotics and Automation, ICRA 2013, Karlsruhe, Germany, 6/05/13. https://doi.org/10.1109/ICRA.2013.6630965

Observability of cell stiffness in micro-channel method. / Tsai, Chia-Hung; Kaneko, Makoto; Sakuma, Shinya et al.
2013 IEEE International Conference on Robotics and Automation, ICRA 2013. 2013. p. 2807-2813 6630965 (Proceedings - IEEE International Conference on Robotics and Automation).

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

TY - GEN

T1 - Observability of cell stiffness in micro-channel method

AU - Tsai, Chia-Hung

AU - Kaneko, Makoto

AU - Sakuma, Shinya

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PY - 2013

Y1 - 2013

N2 - This paper discusses the observability of cell stiffness by utilizing a micro-channel whose diameter is slightly smaller than that of a cell. By modeling each cell with distributed springs and dampers, we discuss how many sensing points are necessary and sufficient for evaluating cell stiffness. We define the observability by the velocity of each cell through a micro-channel based upon the experimental observation that the equilibrium velocity of a cell varies corresponding to its stiffness. We conclude that for evaluating cell stiffness, two points are necessary and sufficient while using an infinitely long channel, and three are necessary and sufficient for judging whether cell stiffness is observable or not. This study attempts to provide a practical guidance for developing a simpler, faster, low-cost sensor in the future.

AB - This paper discusses the observability of cell stiffness by utilizing a micro-channel whose diameter is slightly smaller than that of a cell. By modeling each cell with distributed springs and dampers, we discuss how many sensing points are necessary and sufficient for evaluating cell stiffness. We define the observability by the velocity of each cell through a micro-channel based upon the experimental observation that the equilibrium velocity of a cell varies corresponding to its stiffness. We conclude that for evaluating cell stiffness, two points are necessary and sufficient while using an infinitely long channel, and three are necessary and sufficient for judging whether cell stiffness is observable or not. This study attempts to provide a practical guidance for developing a simpler, faster, low-cost sensor in the future.

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BT - 2013 IEEE International Conference on Robotics and Automation, ICRA 2013

T2 - 2013 IEEE International Conference on Robotics and Automation, ICRA 2013

Y2 - 6 May 2013 through 10 May 2013

ER -

Observability of cell stiffness in micro-channel method

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