A novel soft actuator for continuum soft robot arm

Zahra S. Navabi; Debao Zhou

doi:10.1145/3278198.3278223

A novel soft actuator for continuum soft robot arm

Zahra S. Navabi, Debao Zhou

Mechanical & Industrial Engineering

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

3 Scopus citations

Abstract

This paper presents a novel pneumatic soft actuator for continuum robotic arms. In this actuator, by utilizing the instability of silicone rubber, the need for multiple air tubes to have multiple independent inflating chambers has been removed. To control which part to be inflated and to add more degrees of freedom to the actuator, shape memory alloy (SMA) springs have been used in the actuator structure. The resultant actuator can produce a high displacement and can maintain its final state without consuming energy. The goal for designing such an actuator is to decrease the size of current soft pneumatic continuum robotic arms by reducing the number of air supply tubes while preserving the number of degrees of freedom of the continuum robot arm. The current paper discussed the main principles behind the actuator design, the behavior of the first prototype of the actuator and the main aspects of controlling the actuator. In the end, the possible improvements and main issues regarding the enhancement of the actuator function have been discussed.

Original language	English (US)
Title of host publication	2018 2nd International Conference on Biomedical Engineering and Bioinformatics, ICBEB 2018
Publisher	Association for Computing Machinery
Pages	138-143
Number of pages	6
ISBN (Electronic)	9781450365062
DOIs	https://doi.org/10.1145/3278198.3278223
State	Published - Sep 19 2018
Event	2nd International Conference on Biomedical Engineering and Bioinformatics, ICBEB 2018 - Tianjin, China Duration: Sep 19 2018 → Sep 21 2018

Publication series

Name	ACM International Conference Proceeding Series

Other

Other	2nd International Conference on Biomedical Engineering and Bioinformatics, ICBEB 2018
Country/Territory	China
City	Tianjin
Period	9/19/18 → 9/21/18

Bibliographical note

Publisher Copyright:
© 2018 Association for Computing Machinery.

Keywords

Continuum arm
Nonlinearity of silicone rubber
Pneumatic actuator
SMA spring
Soft robots

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Navabi, ZS & Zhou, D 2018, A novel soft actuator for continuum soft robot arm. in 2018 2nd International Conference on Biomedical Engineering and Bioinformatics, ICBEB 2018. ACM International Conference Proceeding Series, Association for Computing Machinery, pp. 138-143, 2nd International Conference on Biomedical Engineering and Bioinformatics, ICBEB 2018, Tianjin, China, 9/19/18. https://doi.org/10.1145/3278198.3278223

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abstract = "This paper presents a novel pneumatic soft actuator for continuum robotic arms. In this actuator, by utilizing the instability of silicone rubber, the need for multiple air tubes to have multiple independent inflating chambers has been removed. To control which part to be inflated and to add more degrees of freedom to the actuator, shape memory alloy (SMA) springs have been used in the actuator structure. The resultant actuator can produce a high displacement and can maintain its final state without consuming energy. The goal for designing such an actuator is to decrease the size of current soft pneumatic continuum robotic arms by reducing the number of air supply tubes while preserving the number of degrees of freedom of the continuum robot arm. The current paper discussed the main principles behind the actuator design, the behavior of the first prototype of the actuator and the main aspects of controlling the actuator. In the end, the possible improvements and main issues regarding the enhancement of the actuator function have been discussed.",

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N2 - This paper presents a novel pneumatic soft actuator for continuum robotic arms. In this actuator, by utilizing the instability of silicone rubber, the need for multiple air tubes to have multiple independent inflating chambers has been removed. To control which part to be inflated and to add more degrees of freedom to the actuator, shape memory alloy (SMA) springs have been used in the actuator structure. The resultant actuator can produce a high displacement and can maintain its final state without consuming energy. The goal for designing such an actuator is to decrease the size of current soft pneumatic continuum robotic arms by reducing the number of air supply tubes while preserving the number of degrees of freedom of the continuum robot arm. The current paper discussed the main principles behind the actuator design, the behavior of the first prototype of the actuator and the main aspects of controlling the actuator. In the end, the possible improvements and main issues regarding the enhancement of the actuator function have been discussed.

AB - This paper presents a novel pneumatic soft actuator for continuum robotic arms. In this actuator, by utilizing the instability of silicone rubber, the need for multiple air tubes to have multiple independent inflating chambers has been removed. To control which part to be inflated and to add more degrees of freedom to the actuator, shape memory alloy (SMA) springs have been used in the actuator structure. The resultant actuator can produce a high displacement and can maintain its final state without consuming energy. The goal for designing such an actuator is to decrease the size of current soft pneumatic continuum robotic arms by reducing the number of air supply tubes while preserving the number of degrees of freedom of the continuum robot arm. The current paper discussed the main principles behind the actuator design, the behavior of the first prototype of the actuator and the main aspects of controlling the actuator. In the end, the possible improvements and main issues regarding the enhancement of the actuator function have been discussed.

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KW - Pneumatic actuator

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KW - Soft robots

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A novel soft actuator for continuum soft robot arm

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