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Main Authors: Lambranzi, Chiara, Oberti, Giulia, Di Natali, Christian, Caldwell, Darwin G., Galli, Manuela, De Momi, Elena, Ortiz, Jesùs
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.23579
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author Lambranzi, Chiara
Oberti, Giulia
Di Natali, Christian
Caldwell, Darwin G.
Galli, Manuela
De Momi, Elena
Ortiz, Jesùs
author_facet Lambranzi, Chiara
Oberti, Giulia
Di Natali, Christian
Caldwell, Darwin G.
Galli, Manuela
De Momi, Elena
Ortiz, Jesùs
contents Anchor point placement is a crucial yet often overlooked aspect of exosuit design since it determines how forces interact with the human body. This work analyzes the impact of different anchor point positions on gait kinematics, muscular activation and energetic consumption. A total of six experiments were conducted with 11 subjects wearing the XoSoft exosuit, which assists hip flexion in five configurations. Subjects were instrumented with an IMU-based motion tracking system, EMG sensors, and a mask to measure metabolic consumption. The results show that positioning the knee anchor point on the posterior side while keeping the hip anchor on the anterior part can reduce muscle activation in the hip flexors by up to 10.21\% and metabolic expenditure by up to 18.45\%. Even if the only assisted joint was the hip, all the configurations introduced changes also in the knee and ankle kinematics. Overall, no single configuration was optimal across all subjects, suggesting that a personalized approach is necessary to transmit the assistance forces optimally. These findings emphasize that anchor point position does indeed have a significant impact on exoskeleton effectiveness and efficiency. However, these optimal positions are subject-specific to the exosuit design, and there is a strong need for future work to tailor musculoskeletal models to individual characteristics and validate these results in clinical populations.
format Preprint
id arxiv_https___arxiv_org_abs_2507_23579
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Impact of a Lower Limb Exosuit Anchor Points on Energetics and Biomechanics
Lambranzi, Chiara
Oberti, Giulia
Di Natali, Christian
Caldwell, Darwin G.
Galli, Manuela
De Momi, Elena
Ortiz, Jesùs
Medical Physics
Robotics
Signal Processing
Anchor point placement is a crucial yet often overlooked aspect of exosuit design since it determines how forces interact with the human body. This work analyzes the impact of different anchor point positions on gait kinematics, muscular activation and energetic consumption. A total of six experiments were conducted with 11 subjects wearing the XoSoft exosuit, which assists hip flexion in five configurations. Subjects were instrumented with an IMU-based motion tracking system, EMG sensors, and a mask to measure metabolic consumption. The results show that positioning the knee anchor point on the posterior side while keeping the hip anchor on the anterior part can reduce muscle activation in the hip flexors by up to 10.21\% and metabolic expenditure by up to 18.45\%. Even if the only assisted joint was the hip, all the configurations introduced changes also in the knee and ankle kinematics. Overall, no single configuration was optimal across all subjects, suggesting that a personalized approach is necessary to transmit the assistance forces optimally. These findings emphasize that anchor point position does indeed have a significant impact on exoskeleton effectiveness and efficiency. However, these optimal positions are subject-specific to the exosuit design, and there is a strong need for future work to tailor musculoskeletal models to individual characteristics and validate these results in clinical populations.
title Impact of a Lower Limb Exosuit Anchor Points on Energetics and Biomechanics
topic Medical Physics
Robotics
Signal Processing
url https://arxiv.org/abs/2507.23579