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Main Authors: Laribi, Med Amine, Ceccarelli, Marco, Sandoval, Juan, Bottin, Matteo, Rosati, Giulio
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.13870
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author Laribi, Med Amine
Ceccarelli, Marco
Sandoval, Juan
Bottin, Matteo
Rosati, Giulio
author_facet Laribi, Med Amine
Ceccarelli, Marco
Sandoval, Juan
Bottin, Matteo
Rosati, Giulio
contents This paper presents a new design of CADEL, a cable-driven elbow-assisting device, with light weighting and control improvements. The new device design is appropriate to be more portable and user-oriented solution, presenting additional facilities with respect to the original design. One of potential benefits of improved portability can be envisaged in the possibility of house and hospital usage keeping social distancing while allowing rehabilitation treatments even during a pandemic spread. Specific attention has been devoted to design main mechatronic components by developing specific kinematics models. The design process includes an implementation of specific control hardware and software. The kinematic model of the new design is formulated and features are evaluated through numerical simulations and experimental tests. An evaluation from original design highlights the proposed improvements mainly in terms of comfort, portability and user-oriented operation.
format Preprint
id arxiv_https___arxiv_org_abs_2410_13870
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Experimental Validation of Light Cable-Driven Elbow-Assisting Device L-CADEL Design
Laribi, Med Amine
Ceccarelli, Marco
Sandoval, Juan
Bottin, Matteo
Rosati, Giulio
Robotics
Human-Computer Interaction
This paper presents a new design of CADEL, a cable-driven elbow-assisting device, with light weighting and control improvements. The new device design is appropriate to be more portable and user-oriented solution, presenting additional facilities with respect to the original design. One of potential benefits of improved portability can be envisaged in the possibility of house and hospital usage keeping social distancing while allowing rehabilitation treatments even during a pandemic spread. Specific attention has been devoted to design main mechatronic components by developing specific kinematics models. The design process includes an implementation of specific control hardware and software. The kinematic model of the new design is formulated and features are evaluated through numerical simulations and experimental tests. An evaluation from original design highlights the proposed improvements mainly in terms of comfort, portability and user-oriented operation.
title Experimental Validation of Light Cable-Driven Elbow-Assisting Device L-CADEL Design
topic Robotics
Human-Computer Interaction
url https://arxiv.org/abs/2410.13870