Design and Simulation of Flexible Lower Limb Assisted Exoskeletons Based on the OpenSim

Design and Simulation of Flexible Lower Limb Assisted Exoskeletons Based on the OpenSim

Aiming at the problems of poor wearing comfort of current rigid exoskeletons, difficulty in matching exoskeleton joints with human body joints, and many restrictions on human body freedom, a flexible lower limb assisted exoskeleton is designed. The exoskeleton uses a flexible elastic belt energy sto...

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Bibliographic Details
Main Authors: Feng Bolin, Song Peng, Li Ruiyuan, Wei Zuba, Li Qiang, Sun Xichang
Format: Article
Language:zho
Published: Editorial Office of Journal of Mechanical Transmission 2024-05-01
Series:Jixie chuandong
Subjects:
Flexible lower limb assisted exoskeleton
Man-machine coupling model
OpenSim software
Simulation
Metabolism
Online Access:http://www.jxcd.net.cn/thesisDetails#10.16578/j.issn.1004.2539.2024.05.009
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Summary:Aiming at the problems of poor wearing comfort of current rigid exoskeletons, difficulty in matching exoskeleton joints with human body joints, and many restrictions on human body freedom, a flexible lower limb assisted exoskeleton is designed. The exoskeleton uses a flexible elastic belt energy storage device. When walking, it assists the muscles of the lower limbs of the human body. This study uses the OpenSim software to establish a simulation of man-machine interaction with the flexible exoskeleton. Aiming at realizing its optimal assisting scheme, a multi-joint assisting and single-joint assisting man-machine coupling model is established. The influence of different joint assisting combinations on human assisting and the influence of the man-machine coupling model of exoskeletons with different spring stiffness on knee joints, hip joints and ankle joints are studied. The results show that the single-joint assisting scheme is better than the multi-joint assisting scheme, and the assisting effect of the single-ankle joint assisting scheme is the best when the spring stiffness increases to 20 N/mm. The simulation results show that compared with the situation without wearing the ankle exoskeleton, the overall energy consumption of the human body and the stress on the main movement muscles of the calf during walking are reduced, and the burden on the wearer's muscles is reduced to achieve the purpose of assisting.
ISSN:1004-2539

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