Pneumatic Artificial Mini-Muscles Conception: Medical Robotics Applications-Reference-Cited by-同舟云学术

Pneumatic Artificial Mini-Muscles Conception: Medical Robotics Applications

Published:2009-08 Issue: Volume:15 Page:49-54
ISSN:1662-7482
Container-title:Applied Mechanics and Materials
language:
Short-container-title:AMM

Author:

Díaz-Zagal S.¹,Gutiérrez-Estrada C.¹,Rendón-Lara E.¹,Abundez-Barrera I.¹,Pacheco-Sánchez J.H.¹

Affiliation:

1. DEPI

Abstract

Actually, the pneumatic artificial muscles of McKibben type [1] show a great functional similarity with the skeletal muscle. A detailed analysis of the system has been performed to better characterize this similarity with the analogous dynamic behavior of the organic system. Such analysis has shown that the McKibben-type artificial muscle can be adapted to the Hill fundamental model [2]. Research regarding pneumatic artificial muscle with application to robotics has recently focused on mini-actuators for miniaturized robotics systems. This is specially true in the area of medical robotics, but an extension of miniactuator technology to other applications may be feasible, such as the development of artificial fine-motion limbs (hands and/or fingers). The present work details the artificial muscle miniaturization process developed in the LESIA laboratory, their behavior, their position and force control characteristics, as well as the possible applications of this technology to medical robotics.

Publisher

Trans Tech Publications, Ltd.

Link

https://www.scientific.net/AMM.15.49.pdf

Reference12 articles.

1. Y. Bar-Cohen, Electroactive Polymers as Artificial Muscles: A Review, Journal of Spacecraft and Rockets, vol. 39, n°2, 2002, pp.822-827.

2. K. Inoue, Rubbertuators and Applications for Robots, 4 th Int. Symp. on Robotics Research, Cambridge (MA), 1988, pp.57-63.

3. Bridgestone Corporation. 1987. Tokyo, Japan, Soft Arm ACFAS, Robot System and Bridgestone Corporation and Taicubo Engineering. 1993. Tokyo, Japan, Soft Boy: Advanced Painting System Unit.

4. C. Ghez, Muscles: Effectors of the Motor System, in Principles of Neural Science, E.R. Kandel, J.H. Schwartz, T.M. Jessek, Eds. Englewood Cliffs, New-York, Prentice-Hall, 1991, pp.548-563.

5. G. K. Klute, J.M. Czerniecki, and B. Hannaford, McKibben Artificial Muscles: Pneumatic Actuators with Biomechanical Intelligence, " 1999 IEEE/ASME Int. Conf. on Advanced Intelligent Mechatronics (AIM, 99), Atlanta, GA, 1999, pp.221-226.