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Autori principali: Tomezzoli, Aurélie, Gréau, Mathieu, Pontonnier, Charles
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2511.13307
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author Tomezzoli, Aurélie
Gréau, Mathieu
Pontonnier, Charles
author_facet Tomezzoli, Aurélie
Gréau, Mathieu
Pontonnier, Charles
contents Although a growing number of exoskeletons have been developed for occupational applications, wrist exoskeletons remain relatively rare. However, in the meat processing industry, elbow and hand-wrist musculoskeletal disorders are particularly common. The aim of this study was to assess the potential effectiveness and risks of a 670g wrist exoskeleton prototype designed to assist operators during meat cutting tasks. Six professional butchers performed three standardized tasks reproducing meat cutting gestures in foam, in three randomized experimental conditions: (1) without exoskeleton, (2) wearing the exoskeleton passive, with brakes off and (3) using it with brakes activated, locked in a static position. Cutting forces were recorded using an instrumented table, joint angles using an optoelectronic motion capture system, muscle activity using surface EMG and user experience was assessed using questionnaires. The cutting inaccuracy was defined as the area between the prescribed task and the actual cut on the foam surface. Joint torques were estimated by inverse dynamics with and without taking the exoskeleton's mass into account, to isolate its effect. Linear mixed-effects statistical models were fitted. With the exoskeleton active during tasks, EMG activity was decreased of up to 18.7% (p<0.01 to p<0.001) in the wrist flexors and increased of up to 61.7% (not significant to p<0.05) in the upper trapezius. Shoulder elevation joint torques were increased of up to 39.7% (p<0.001), mainly due to the exoskeleton mass. The proposed multi-criteria exoskeleton evaluation has provided guidance for following prototyping stages. Too heavy wrist exoskeletons could increase the risk of shoulder tendinitis for such tasks.
format Preprint
id arxiv_https___arxiv_org_abs_2511_13307
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Operational and biomechanical evaluation of a wrist exoskeleton prototype for assisting meat cutting tasks
Tomezzoli, Aurélie
Gréau, Mathieu
Pontonnier, Charles
Medical Physics
Although a growing number of exoskeletons have been developed for occupational applications, wrist exoskeletons remain relatively rare. However, in the meat processing industry, elbow and hand-wrist musculoskeletal disorders are particularly common. The aim of this study was to assess the potential effectiveness and risks of a 670g wrist exoskeleton prototype designed to assist operators during meat cutting tasks. Six professional butchers performed three standardized tasks reproducing meat cutting gestures in foam, in three randomized experimental conditions: (1) without exoskeleton, (2) wearing the exoskeleton passive, with brakes off and (3) using it with brakes activated, locked in a static position. Cutting forces were recorded using an instrumented table, joint angles using an optoelectronic motion capture system, muscle activity using surface EMG and user experience was assessed using questionnaires. The cutting inaccuracy was defined as the area between the prescribed task and the actual cut on the foam surface. Joint torques were estimated by inverse dynamics with and without taking the exoskeleton's mass into account, to isolate its effect. Linear mixed-effects statistical models were fitted. With the exoskeleton active during tasks, EMG activity was decreased of up to 18.7% (p<0.01 to p<0.001) in the wrist flexors and increased of up to 61.7% (not significant to p<0.05) in the upper trapezius. Shoulder elevation joint torques were increased of up to 39.7% (p<0.001), mainly due to the exoskeleton mass. The proposed multi-criteria exoskeleton evaluation has provided guidance for following prototyping stages. Too heavy wrist exoskeletons could increase the risk of shoulder tendinitis for such tasks.
title Operational and biomechanical evaluation of a wrist exoskeleton prototype for assisting meat cutting tasks
topic Medical Physics
url https://arxiv.org/abs/2511.13307