Development of Robot Using Pneumatic Artificial Rubber Muscles to Operate Construction Machinery

Kawashima, Kenji; Sasaki, Takahiro; Miyata, Takamichi; Nakamura, Naohiro; Sekiguchi, Masato; Kagawa, Toshiharu

doi:10.20965/jrm.2004.p0008

Cited by 54 publications

(17 citation statements)

References 9 publications

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“…A rubber PAM-actuated Robot Arm System ( Figure 5.2) with six degrees of freedom has been developed in [64] and a two-DOF planar robotic manipulator ( Figure 5.3) that assisted in handling of heavy loads and was actuated by Pleated Pneumatic Artificial Muscles, has been appeared in [65], [66]. In [67], the authors propose a prototype design of a teleoperational rig for retrieval of radioactive material that uses a combination of the traditional man-handled manipulation pole combined with PAMs.…”

Section: Industrial Applicationsmentioning

confidence: 99%

A Survey on applications of Pneumatic Artificial Muscles

Ανδρικόπουλος

Nikolakopoulos

Manesis

2011

2011 19th Mediterranean Conference on Control &Amp; Automation (MED)

162

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The aim of this article is to present a survey on applications of Pneumatic Artificial Muscles (PAMs). PAMs are highly non-linear pneumatic actuators where their elongation is proportional to the interval pressure. During the last decade, there has been a significant increase in the industrial and scientific utilization of PAMs due to their advantages such as high strength and small weight, while various types of PAMs with different technical characteristics have been appeared in the relative scientific literature. This article will summarize the key enabling applications in PAMs that are focusing in the following areas: a) Biorobotic, b) Medical, c) Industrial, and d) Aerospace applications.

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Section: Industrial Applicationsmentioning

confidence: 99%

A Survey on applications of Pneumatic Artificial Muscles

Ανδρικόπουλος

Nikolakopoulos

Manesis

2011

2011 19th Mediterranean Conference on Control &Amp; Automation (MED)

162

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“…A wide variety of applications can benefit from the features of pneumatic systems [1]. The pneumatic artificial rubber muscle (PARM) is a flexible actuator, which, when pressurized, decreases in actuating length [2,3]. PARMs consist primarily of rubber tubes wrapped in a double helix synthetic fiber netting at a predetermined angle [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

A method to suppress temperature increase in pneumatic artificial rubber muscles

Kawashima

Kagawa

2015

Experimental Thermal and Fluid Science

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“…Several forms of this type of muscle have actually been commercialized by different companies such as Bridgestone Co. [5], the Shadow Robot Company [6], Merlin Systems Coorporation [7] and Festo [8]. The interest in these actuators is growing increasingly and several groups all over the world use McKibben muscles in various robotic and medical applications [9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Propulsion System With Pneumatic Artificial Muscles for Powering Ankle-Foot Orthosis

Veneva¹,

Vanderborght²,

Lefeber³

et al. 2013

Journal of Theoretical and Applied Mechanics

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Abstract. The aim of this paper is to present the design of device for control of new propulsion system with pneumatic artificial muscles. The propulsion system can be used for ankle joint articulation, for assisting and rehabilitation in cases of injured ankle-foot complex, stroke patients or elderly with functional weakness.Proposed device for control is composed by microcontroller, generator for muscles contractions and sensor system. The microcontroller receives the control signals from sensors and modulates ankle joint flexion and extension during human motion. The local joint control with a PID (Proportional-Integral Derivative) position feedback directly calculates desired pressure levels and dictates the necessary contractions.The main goal is to achieve an adaptation of the system and provide the necessary joint torque using position control with feedback.

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Development of Robot Using Pneumatic Artificial Rubber Muscles to Operate Construction Machinery

Cited by 54 publications

References 9 publications

A Survey on applications of Pneumatic Artificial Muscles

A Survey on applications of Pneumatic Artificial Muscles

A method to suppress temperature increase in pneumatic artificial rubber muscles

Propulsion System With Pneumatic Artificial Muscles for Powering Ankle-Foot Orthosis

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