Development of Bioinspired Exosuit Actuated with Hydro Muscles and Novel Compact Robotic Flow Control Valve

Julia D’Agostino; Julia D’Agostino; Julia D’Agostino; Ellen Clarrissimeaux; Ellen Clarrissimeaux; Shannon Moffat; Shannon Moffat; Juan D. Florez-Castillo; Juan D. Florez-Castillo; Felix Sanchez; Felix Sanchez; Matthew Bowers; Matthew Bowers; Marko Popovic; Marko Popovic; Marko Popovic; Marko Popovic

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Paper

Development of Bioinspired Exosuit Actuated with Hydro Muscles and Novel Compact Robotic Flow Control Valve

Topics: Bioelectronics; Biomaterials; Biomechanical Devices; Biorobotics; Rehabilitation Technology; Wearable and Mobile Devices

In Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 1: BIOSTEC, 40-49, 2020 , Valletta, Malta

Authors: Julia D’Agostino ^{1

;

2

;

3} ; Ellen Clarrissimeaux ^{2

;

3} ; Shannon Moffat ^{1

;

2} ; Juan D. Florez-Castillo ^{1

;

2} ; Felix Sanchez ^{1

;

2} ; Matthew Bowers ^{1

;

2} and Marko Popovic ^{1

;

2

;

4

;

5}

Affiliations: ¹ Robotics Engineering Program, WPI, 100 Institute Road, Worcester, Massachusetts, U.S.A. ; ² Popovic Labs, WPI, 100 Institute Road, Worcester, Massachusetts, U.S.A. ; ³ Mechanical Engineering Department, WPI, 100 Institute Road, Worcester, Massachusetts, U.S.A. ; ⁴ Physics Department, WPI, 100 Institute Road, Worcester, Massachusetts, U.S.A. ; ⁵ Biomedical Engineering Department, WPI, 100 Institute Road, Worcester, Massachusetts, U.S.A.

Keyword(s): Exosuit, Wearable Robotics, Valve, Hydro Muscle, Fluid Actuator.

Abstract: The biologically inspired, wearable, exo-muscular suit has been proposed as a cost-effective, fluidly actuated device for lower-limb physical therapy as well as for assistance with activities of daily living. The exosuit, actuated with 12 biomimetic Hydro Muscles independently controlled with 12 5-way inexpensive, off-the-shelf, on-off solenoid valves, has been designed, manufactured, and tested on a lightweight, biomimetic human skeletal model. The results from testing suggested a necessity for more advanced fluid flow management support system in the form of affordable, lightweight, and compact valves suitable for robotics applications. To meet these metrics and fulfil the requirements of the exosuits fluid flow management system the Compact Robotic Flow Control Valve was designed, manufactured, and tested. The CRFC Valve is lighter, more compact, more controllable, and less expensive than any other similar valve currently on the market.

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Paper citation in several formats:

D’Agostino, J.; Clarrissimeaux, E.; Moffat, S.; Florez-Castillo, J.; Sanchez, F.; Bowers, M. and Popovic, M. (2020). Development of Bioinspired Exosuit Actuated with Hydro Muscles and Novel Compact Robotic Flow Control Valve. In Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - BIODEVICES; ISBN 978-989-758-398-8; ISSN 2184-4305, SciTePress, pages 40-49. DOI: 10.5220/0008948600400049

@conference{biodevices20,
author={Julia D’Agostino. and Ellen Clarrissimeaux. and Shannon Moffat. and Juan D. Florez{-}Castillo. and Felix Sanchez. and Matthew Bowers. and Marko Popovic.},
title={Development of Bioinspired Exosuit Actuated with Hydro Muscles and Novel Compact Robotic Flow Control Valve},
booktitle={Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - BIODEVICES},
year={2020},
pages={40-49},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0008948600400049},
isbn={978-989-758-398-8},
issn={2184-4305},
}

TY - CONF

JO - Proceedings of the 13th International Joint Conference on Biomedical Engineering Systems and Technologies (BIOSTEC 2020) - BIODEVICES
TI - Development of Bioinspired Exosuit Actuated with Hydro Muscles and Novel Compact Robotic Flow Control Valve
SN - 978-989-758-398-8
IS - 2184-4305
AU - D’Agostino, J.
AU - Clarrissimeaux, E.
AU - Moffat, S.
AU - Florez-Castillo, J.
AU - Sanchez, F.
AU - Bowers, M.
AU - Popovic, M.
PY - 2020
SP - 40
EP - 49
DO - 10.5220/0008948600400049
PB - SciTePress