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Autori principali: Ayazi, Mehrnoosh, Sahin, Ipsita, Mucchiani, Caio, Kokkoni, Elena, Karydis, Konstantinos
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2407.12978
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author Ayazi, Mehrnoosh
Sahin, Ipsita
Mucchiani, Caio
Kokkoni, Elena
Karydis, Konstantinos
author_facet Ayazi, Mehrnoosh
Sahin, Ipsita
Mucchiani, Caio
Kokkoni, Elena
Karydis, Konstantinos
contents This paper presents a comprehensive analysis of the contact force profile of a single-cell bidirectional soft pneumatic actuator, specifically designed to aid in the abduction and adduction of the shoulder for pediatric exosuits. The actuator was embedded in an infant-scale test rig featuring two degrees of freedom: an actuated revolute joint supporting shoulder abduction/adduction and a passive (but lockable) revolute joint supporting elbow flexion/extension. Integrated load cells and an encoder within the rig were used to measure the force applied by the actuator and the shoulder joint angle, respectively. The actuator's performance was evaluated under various anchoring points and elbow joint angles. Experimental results demonstrate that optimal performance, characterized by maximum range of motion and minimal force applied on the torso and upper arm, can be achieved when the actuator is anchored at two-thirds the length of the upper arm, with the elbow joint positioned at a 90-degree angle. The force versus pressure and joint angle graphs reveal nonlinear and hysteresis behaviors. The findings of this study yield insights about optimal anchoring points and elbow angles to minimize exerted forces without reducing the range of motion.
format Preprint
id arxiv_https___arxiv_org_abs_2407_12978
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Force Profiling of a Shoulder Bidirectional Fabric-based Pneumatic Actuator for a Pediatric Exosuit
Ayazi, Mehrnoosh
Sahin, Ipsita
Mucchiani, Caio
Kokkoni, Elena
Karydis, Konstantinos
Robotics
This paper presents a comprehensive analysis of the contact force profile of a single-cell bidirectional soft pneumatic actuator, specifically designed to aid in the abduction and adduction of the shoulder for pediatric exosuits. The actuator was embedded in an infant-scale test rig featuring two degrees of freedom: an actuated revolute joint supporting shoulder abduction/adduction and a passive (but lockable) revolute joint supporting elbow flexion/extension. Integrated load cells and an encoder within the rig were used to measure the force applied by the actuator and the shoulder joint angle, respectively. The actuator's performance was evaluated under various anchoring points and elbow joint angles. Experimental results demonstrate that optimal performance, characterized by maximum range of motion and minimal force applied on the torso and upper arm, can be achieved when the actuator is anchored at two-thirds the length of the upper arm, with the elbow joint positioned at a 90-degree angle. The force versus pressure and joint angle graphs reveal nonlinear and hysteresis behaviors. The findings of this study yield insights about optimal anchoring points and elbow angles to minimize exerted forces without reducing the range of motion.
title Force Profiling of a Shoulder Bidirectional Fabric-based Pneumatic Actuator for a Pediatric Exosuit
topic Robotics
url https://arxiv.org/abs/2407.12978