Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis

The research was attempted to mimic the locomotion of the salamander, which is found to be one of the main animals from an evolutionary point of view. The design of the limb and body was started with the parametric studies of pneumatic network (Pneu-Net). Pneu-Net is a pneumatically operated soft ac...

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Main Authors: Natarajan, E., Chia, K. Y., Faudzi, A. A. M., Lim, W. H., Ang, C. K., Jafaari, A.
Format: Article
Published: Polska Akademia Nauk 2021
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Online Access:http://eprints.utm.my/id/eprint/95121/
http://dx.doi.org/10.24425/bpasts.2021.137055
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spelling my.utm.951212022-04-29T22:02:22Z http://eprints.utm.my/id/eprint/95121/ Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis Natarajan, E. Chia, K. Y. Faudzi, A. A. M. Lim, W. H. Ang, C. K. Jafaari, A. QA75 Electronic computers. Computer science The research was attempted to mimic the locomotion of the salamander, which is found to be one of the main animals from an evolutionary point of view. The design of the limb and body was started with the parametric studies of pneumatic network (Pneu-Net). Pneu-Net is a pneumatically operated soft actuator that bends when compressed fluid is passed inside the chamber. Finite Element Analysis software, ANSYS, was used to evaluate the height of the chamber, number of chambers and the gap between chambers for both limb and body of the soft mechanism. The parameters were decided based on the force generated by the soft actuators. The assembly of the salamander robot was then exported to MATLAB for simulating the locomotion of the robot in a physical environment. Sine-based controller was used to simulate the robot model and the fastest locomotion of the salamander robot was identified at 1 Hz frequency, 0.3 second of signal delay for limb actuator and negative π phase difference for every contralateral side of the limbs. Shin-Etsu KE-1603, a hyper elastic material, was used to build the salamander robot and a series of experiments were conducted to record the bending angle, the respective generated force in soft actuators and the gait speed of the robot. The developed salamander robot was able to walk at 0.06774 m/s, following an almost identical pattern to the simulation. Polska Akademia Nauk 2021 Article PeerReviewed Natarajan, E. and Chia, K. Y. and Faudzi, A. A. M. and Lim, W. H. and Ang, C. K. and Jafaari, A. (2021) Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis. Bulletin of the Polish Academy of Sciences: Technical Sciences, 69 (3). ISSN 0239-7528 http://dx.doi.org/10.24425/bpasts.2021.137055 DOI: 10.24425/bpasts.2021.137055
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QA75 Electronic computers. Computer science
spellingShingle QA75 Electronic computers. Computer science
Natarajan, E.
Chia, K. Y.
Faudzi, A. A. M.
Lim, W. H.
Ang, C. K.
Jafaari, A.
Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis
description The research was attempted to mimic the locomotion of the salamander, which is found to be one of the main animals from an evolutionary point of view. The design of the limb and body was started with the parametric studies of pneumatic network (Pneu-Net). Pneu-Net is a pneumatically operated soft actuator that bends when compressed fluid is passed inside the chamber. Finite Element Analysis software, ANSYS, was used to evaluate the height of the chamber, number of chambers and the gap between chambers for both limb and body of the soft mechanism. The parameters were decided based on the force generated by the soft actuators. The assembly of the salamander robot was then exported to MATLAB for simulating the locomotion of the robot in a physical environment. Sine-based controller was used to simulate the robot model and the fastest locomotion of the salamander robot was identified at 1 Hz frequency, 0.3 second of signal delay for limb actuator and negative π phase difference for every contralateral side of the limbs. Shin-Etsu KE-1603, a hyper elastic material, was used to build the salamander robot and a series of experiments were conducted to record the bending angle, the respective generated force in soft actuators and the gait speed of the robot. The developed salamander robot was able to walk at 0.06774 m/s, following an almost identical pattern to the simulation.
format Article
author Natarajan, E.
Chia, K. Y.
Faudzi, A. A. M.
Lim, W. H.
Ang, C. K.
Jafaari, A.
author_facet Natarajan, E.
Chia, K. Y.
Faudzi, A. A. M.
Lim, W. H.
Ang, C. K.
Jafaari, A.
author_sort Natarajan, E.
title Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis
title_short Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis
title_full Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis
title_fullStr Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis
title_full_unstemmed Bio inspired salamander robot with Pneu-Net soft actuators – design and walking gait analysis
title_sort bio inspired salamander robot with pneu-net soft actuators – design and walking gait analysis
publisher Polska Akademia Nauk
publishDate 2021
url http://eprints.utm.my/id/eprint/95121/
http://dx.doi.org/10.24425/bpasts.2021.137055
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score 13.209306