Development of Flexible Sensors for Measuring Human Motion and Displacement of Novel Flexible Pneumatic Actuator

Tetsuya Akagi; Shujiro Dohta; Hiroaki Kuno; Akimasa Fukuhara

doi:10.20965/ijat.2011.p0621

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IJAT Vol.5 No.5 pp. 621-628

doi: 10.20965/ijat.2011.p0621

(2011)

Paper:

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Development of Flexible Sensors for Measuring Human Motion and Displacement of Novel Flexible Pneumatic Actuator

Tetsuya Akagi^, Shujiro Dohta^, Hiroaki Kuno^*,
and Akimasa Fukuhara^**

^*Department of Intelligent Mechanical Engineering, Okayama University of Science, 1-1 Ridai-cho, Kita-ku, Okayama 700-0005, Japan

^**Chikusui Canycom, Inc., 90-1 Fukumasa, Yoshii-machi, Ukiha-shi, Fukuoka 839-1396, Japan

Received:

February 2, 2011

Accepted:

August 17, 2011

Published:

September 5, 2011

Keywords:

skin displacement sensor, indirect measuring for human motion, flexible pneumatic cylinder, flexible linear encoder

Abstract

The importance of wearable devices in nursing care and rehabilitation has been strongly recognized. The purpose of our study is to develop a flexible displacement and bending sensor which can measure human movement and the movement of a flexible actuator. In this paper, a skin displacement sensing system using a flexible string-like flexible displacement sensor to measure the body movement, i.e., measuring the displacement of the skin, was proposed and tested. A flexible linear encoder that can measure the displacement of the flexible pneumatic cylinder using four photoreflectors was also developed. In addition, the measurement using both sensors was done to measure the human motion and the flexible actuator.

Cite this article as:

T. Akagi, S. Dohta, H. Kuno, and A. Fukuhara, “Development of Flexible Sensors for Measuring Human Motion and Displacement of Novel Flexible Pneumatic Actuator,” Int. J. Automation Technol., Vol.5 No.5, pp. 621-628, 2011.

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References

[1] M. Ishii, K. Yamamoto, and K. Hyodo, “Stand-Alone Wearable Power Assist Suit –Development and Availability–,” J. of Robotics and Mehatronics, Vol.17, No.5, pp. 575-583, 2005.
[2] T. Noritsugu, M. Takaiwa, and D. Sasaki, “Development of Power Assist Wear Using Pneumatic Rubber Artificial Muscles,” J. of Robotics and Mechatronics, Vol. 21, No.5, pp. 607-613, 2009.
[3] H. Kobayashi, T. Shiban, and Y. Ishida, “Realization of all 7 motions for the upper limb by a muscle suit,” J. of Robotics and Mechatronics, Vol.16, No.5, pp. 504-512, 2004.
[4] Y. Nagata (Ed.) “Soft Actuators –Forefront of Development–,” NTS Ltd., pp. 291-335, 2004.
[5] T. Akagi and S. Dohta, “Development of a Flexible Pneumatic Cylinder with a Flexible Tube,” Proc. of FLUCOME2003, 076, pdf. 1-6, 2003.
[6] T. Akagi and S. Dohta, “Development of a Rodless Type Flexble Pneumatic Cylinder and Its Application,” Trans. of the JSME(C), Vol.73, No.731, pp. 2108-2214, 2007.
[7] T. Shinohara, S. Dohta, and H. Matsushita, “Development of a Soft Actuator with a Built-in Flexible Displacement Sensor,” Proc. of 9^th Int. Conf. on New Actuator (Actuator 2004), Germany, pp. 383-386, 2004.
[8] I. P. Herman, “Physics of the Human Body,” Springer, 2007.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] M. Ishii, K. Yamamoto, and K. Hyodo, “Stand-Alone Wearable Power Assist Suit –Development and Availability–,” J. of Robotics and Mehatronics, Vol.17, No.5, pp. 575-583, 2005.

[2] [2] T. Noritsugu, M. Takaiwa, and D. Sasaki, “Development of Power Assist Wear Using Pneumatic Rubber Artificial Muscles,” J. of Robotics and Mechatronics, Vol. 21, No.5, pp. 607-613, 2009.

[3] [3] H. Kobayashi, T. Shiban, and Y. Ishida, “Realization of all 7 motions for the upper limb by a muscle suit,” J. of Robotics and Mechatronics, Vol.16, No.5, pp. 504-512, 2004.

[4] [4] Y. Nagata (Ed.) “Soft Actuators –Forefront of Development–,” NTS Ltd., pp. 291-335, 2004.

[5] [5] T. Akagi and S. Dohta, “Development of a Flexible Pneumatic Cylinder with a Flexible Tube,” Proc. of FLUCOME2003, 076, pdf. 1-6, 2003.

[6] [6] T. Akagi and S. Dohta, “Development of a Rodless Type Flexble Pneumatic Cylinder and Its Application,” Trans. of the JSME(C), Vol.73, No.731, pp. 2108-2214, 2007.

[7] [7] T. Shinohara, S. Dohta, and H. Matsushita, “Development of a Soft Actuator with a Built-in Flexible Displacement Sensor,” Proc. of 9^th Int. Conf. on New Actuator (Actuator 2004), Germany, pp. 383-386, 2004.

[8] [8] I. P. Herman, “Physics of the Human Body,” Springer, 2007.

Development of Flexible Sensors for Measuring Human Motion and Displacement of Novel Flexible Pneumatic Actuator

Tetsuya Akagi*, Shujiro Dohta*, Hiroaki Kuno*, and Akimasa Fukuhara**

Tetsuya Akagi^, Shujiro Dohta^, Hiroaki Kuno^*,
and Akimasa Fukuhara^**