Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review

Deyby Huamanchahua; Claudia Castaneda-Vasquez; Alexandra Vasquez-Espinoza; Alejandro Munoz-Zevallos

doi:10.1109/UEMCON53757.2021.9666652

Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review

Deyby Huamanchahua, Claudia Castaneda-Vasquez, Alexandra Vasquez-Espinoza, Alejandro Munoz-Zevallos

Research output: Chapter in Book/Report › Conference contribution › peer-review

1 Scopus citations

Abstract

Upper-limb exoskeletons have become very important in recent years as an alternative to improve the quality of life and the rehabilitation of patients with motor problems. In this way, the purpose of this article is to analyze the technological trends of these upper-limb exoskeletons, that contain the movement of the elbow, stated in the different papers collected. First, a range of years (from 2016 to 2021) will be delimited for the data search. This information will be used to make a matrix, from which the similarities and differences shared by the upper limb exoskeletons can be identified. As a result, it can be observed that 100% of the exoskeletons use flexion/extension movement, 30.77% occupy aluminum as the main material, of which 26.94% use it with 3D printing as a complement for their manufacture. In addition, present PID, AC, and IC control algorithms in 46.16% of the exoskeletons, along with 46,15% motors or servomotors applications for the actuators. Finally, the TLR scale was used to observe the technological advance that each exoskeleton reached.

Original language	American English
Title of host publication	2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021
Editors	Rajashree Paul
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	791-796
Number of pages	6
ISBN (Electronic)	9781665406901
DOIs	https://doi.org/10.1109/UEMCON53757.2021.9666652
State	Indexed - 2021
Externally published	Yes
Event	12th IEEE Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021 - New York, United States Duration: 1 Dec 2021 → 4 Dec 2021

Publication series

Name	2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021

Conference

Conference	12th IEEE Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021
Country/Territory	United States
City	New York
Period	1/12/21 → 4/12/21

Bibliographical note

Publisher Copyright:
© 2021 IEEE.

Keywords

Elbow Rehabilitation
Exoskeleton
Flexion/extension
TRL
Upper-limbs

Access to Document

10.1109/UEMCON53757.2021.9666652

Cite this

Huamanchahua, D., Castaneda-Vasquez, C., Vasquez-Espinoza, A., & Munoz-Zevallos, A. (2021). Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review. In R. Paul (Ed.), 2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021 (pp. 791-796). (2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/UEMCON53757.2021.9666652

Huamanchahua, Deyby ; Castaneda-Vasquez, Claudia ; Vasquez-Espinoza, Alexandra et al. / Robotic Devices Types Exoskeletons for Elbow Rehabilitation : A Technological Review. 2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021. editor / Rajashree Paul. Institute of Electrical and Electronics Engineers Inc., 2021. pp. 791-796 (2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021).

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abstract = "Upper-limb exoskeletons have become very important in recent years as an alternative to improve the quality of life and the rehabilitation of patients with motor problems. In this way, the purpose of this article is to analyze the technological trends of these upper-limb exoskeletons, that contain the movement of the elbow, stated in the different papers collected. First, a range of years (from 2016 to 2021) will be delimited for the data search. This information will be used to make a matrix, from which the similarities and differences shared by the upper limb exoskeletons can be identified. As a result, it can be observed that 100% of the exoskeletons use flexion/extension movement, 30.77% occupy aluminum as the main material, of which 26.94% use it with 3D printing as a complement for their manufacture. In addition, present PID, AC, and IC control algorithms in 46.16% of the exoskeletons, along with 46,15% motors or servomotors applications for the actuators. Finally, the TLR scale was used to observe the technological advance that each exoskeleton reached.",

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Huamanchahua, D, Castaneda-Vasquez, C, Vasquez-Espinoza, A & Munoz-Zevallos, A 2021, Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review. in R Paul (ed.), 2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021. 2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021, Institute of Electrical and Electronics Engineers Inc., pp. 791-796, 12th IEEE Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021, New York, United States, 1/12/21. https://doi.org/10.1109/UEMCON53757.2021.9666652

Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review. / Huamanchahua, Deyby; Castaneda-Vasquez, Claudia; Vasquez-Espinoza, Alexandra et al.
2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021. ed. / Rajashree Paul. Institute of Electrical and Electronics Engineers Inc., 2021. p. 791-796 (2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021).

Research output: Chapter in Book/Report › Conference contribution › peer-review

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AU - Huamanchahua, Deyby

AU - Castaneda-Vasquez, Claudia

AU - Vasquez-Espinoza, Alexandra

AU - Munoz-Zevallos, Alejandro

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N2 - Upper-limb exoskeletons have become very important in recent years as an alternative to improve the quality of life and the rehabilitation of patients with motor problems. In this way, the purpose of this article is to analyze the technological trends of these upper-limb exoskeletons, that contain the movement of the elbow, stated in the different papers collected. First, a range of years (from 2016 to 2021) will be delimited for the data search. This information will be used to make a matrix, from which the similarities and differences shared by the upper limb exoskeletons can be identified. As a result, it can be observed that 100% of the exoskeletons use flexion/extension movement, 30.77% occupy aluminum as the main material, of which 26.94% use it with 3D printing as a complement for their manufacture. In addition, present PID, AC, and IC control algorithms in 46.16% of the exoskeletons, along with 46,15% motors or servomotors applications for the actuators. Finally, the TLR scale was used to observe the technological advance that each exoskeleton reached.

AB - Upper-limb exoskeletons have become very important in recent years as an alternative to improve the quality of life and the rehabilitation of patients with motor problems. In this way, the purpose of this article is to analyze the technological trends of these upper-limb exoskeletons, that contain the movement of the elbow, stated in the different papers collected. First, a range of years (from 2016 to 2021) will be delimited for the data search. This information will be used to make a matrix, from which the similarities and differences shared by the upper limb exoskeletons can be identified. As a result, it can be observed that 100% of the exoskeletons use flexion/extension movement, 30.77% occupy aluminum as the main material, of which 26.94% use it with 3D printing as a complement for their manufacture. In addition, present PID, AC, and IC control algorithms in 46.16% of the exoskeletons, along with 46,15% motors or servomotors applications for the actuators. Finally, the TLR scale was used to observe the technological advance that each exoskeleton reached.

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Huamanchahua D, Castaneda-Vasquez C, Vasquez-Espinoza A, Munoz-Zevallos A. Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review. In Paul R, editor, 2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021. Institute of Electrical and Electronics Engineers Inc. 2021. p. 791-796. (2021 IEEE 12th Annual Ubiquitous Computing, Electronics and Mobile Communication Conference, UEMCON 2021). doi: 10.1109/UEMCON53757.2021.9666652

Robotic Devices Types Exoskeletons for Elbow Rehabilitation: A Technological Review

Abstract

Publication series

Conference

Bibliographical note

Keywords

Access to Document

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Cite this