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Design and Implementation of a Robotic Hip Exoskeleton for Gait Rehabilitation

Shi-Heng Hsu, Chuan Changcheng, Heng-Ju Lee, Chun-Ta Chen

Year
2021
Citations
15
Access
Open access

Abstract

In this paper, a four degrees-of-freedom robotic hip exoskeleton was proposed for gait rehabilitation. The robotic hip exoskeleton was designed with active flexion/extension and passive abduction/adduction at each hip joint to comply with the movement of the thigh. Due to each user’s different lower limbs characteristics and unknown torques at hip joints, model-free linear extended state observer (LESO)-based controllers were proposed for rehabilitation gait control. The prototypes of the robotic hip exoskeleton and controller designs were validated and compared through walking and ascending rehabilitation experiments. Additionally, a motion captured system and EMG signals were used to investigate the walking assistance of the robotic hip exoskeleton.

Keywords

ExoskeletonPowered exoskeletonGait trainingGaitRehabilitationPhysical medicine and rehabilitationTorqueController (irrigation)Computer scienceSimulation

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