Research on the configuration of a balanced disability rehabilitation robot based on redundant degrees of freedom

Research on the configuration of a balanced disability rehabilitation robot based on redundant degrees of freedom

A new configuration of a 9-degree-of-freedom (DOF) robot has been designed to address the prevalence of balance disorders in patients and the increasing demand for exercise rehabilitation training. This lower-limb end rehabilitation robot can assist patients with repetitive movements to stimulate an...

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Bibliographic Details
Published in:Advances in mechanical engineering Vol. 16; no. 9
Main Authors: Wu, Junyu, Liu, Yubin, Chu, Guoqing, Cai, Hegao, Li, Ying, Zhao, Jie
Format: Journal Article
Language:English
Published: London, England SAGE Publications 01-09-2024
Sage Publications Ltd
SAGE Publishing
Subjects:
Bearing capacity
Configuration management
Design optimization
Kinematics
Load bearing elements
Modular equipment
Modular structures
Motion control
Multiple robots
Nervous system
Parallel degrees of freedom
Rehabilitation robots
Robot control
Robot dynamics
Structural forms
rehabilitation training
somatosensory fusion
configuration design
Series parallel hybrid robot
degree of freedom redundancy
kinematic model
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Summary:A new configuration of a 9-degree-of-freedom (DOF) robot has been designed to address the prevalence of balance disorders in patients and the increasing demand for exercise rehabilitation training. This lower-limb end rehabilitation robot can assist patients with repetitive movements to stimulate and rebuild their nervous system and improve their pelvic and muscle motion control abilities. Starting from functional requirements, multiple robot configuration design schemes are proposed, and various performance indicators are comprehensively considered to ultimately select and optimize a 9-DOF redundant series-parallel hybrid robot and complete its kinematic analysis and derivation. This robot consists of a 6-DOF vestibular parallel device and a 3-DOF proprioceptive parallel device in series, which are modular in structure and function while retaining the advantages of the strong load-bearing capacity of series robots and the large workspace of parallel robots. A new structural form is proposed for investigating lower-limb rehabilitation robots.
ISSN:1687-8132
1687-8140
DOI:10.1177/16878132241272231