CURER: A Lightweight Cable-Driven Compliant Upper Limb Rehabilitation Exoskeleton Robot
Upper limb exoskeletons show promise for improving functionalities required for stroke patients. Despite recent progress, most of current upper limb rehabilitation devices are still bulky, heavy, and less compliant to be applied. This article presents a cable-driven compliant upper limb rehabilitati...
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| Published in | IEEE/ASME transactions on mechatronics Vol. 28; no. 3; pp. 1 - 12 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.06.2023
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Upper limb exoskeletons show promise for improving functionalities required for stroke patients. Despite recent progress, most of current upper limb rehabilitation devices are still bulky, heavy, and less compliant to be applied. This article presents a cable-driven compliant upper limb rehabilitation exoskeleton robot (CURER) with a lightweight frame and comfortable human-robot interaction. A modular series elastic actuator (SEA) was designed to provide controlled torque for each active robotic joint, and Bowden cables were applied to transfer controlled torque to distal joints. A six-bar double parallelogram mechanism was designed to implement 3 active degrees of freedom (DOFs) of a shoulder. An actuated elbow with 1 DOF and a wrist with a passive DOF were also developed for CURER. The anthropomorphic shoulder, elbow, and wrist joints can minimize misalignment between human upper limbs and the robot. The length of anthropomorphic arm was adjustable for a wide range of users. It can apply up to a 33 N·m torque in shoulder flexion/extension, abduction/adduction, intra/extra rotation, and elbow flexion/extension, with a range of 7.6-8.0 Hz position bandwidth in each actuation. CURER has a large range of motion and can provide accurate torque control for stroke patients' requirements. Besides, a comprehensive rehabilitation strategy including robot-in-charge mode and human-in-charge mode was developed for different recovery stages. Experiments carried out on CURER actuation units demonstrated good position and impedance control performance. Finally, a virtual reality training system was developed to assist the subjects to accomplish upper limb rehabilitation efficiently. |
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| AbstractList | Upper limb exoskeletons show promise for improving functionalities required for stroke patients. Despite recent progress, most of current upper limb rehabilitation devices are still bulky, heavy, and less compliant to be applied. This article presents a cable-driven compliant upper limb rehabilitation exoskeleton robot (CURER) with a lightweight frame and comfortable human-robot interaction. A modular series elastic actuator (SEA) was designed to provide controlled torque for each active robotic joint, and Bowden cables were applied to transfer controlled torque to distal joints. A six-bar double parallelogram mechanism was designed to implement 3 active degrees of freedom (DOFs) of a shoulder. An actuated elbow with 1 DOF and a wrist with a passive DOF were also developed for CURER. The anthropomorphic shoulder, elbow, and wrist joints can minimize misalignment between human upper limbs and the robot. The length of anthropomorphic arm was adjustable for a wide range of users. It can apply up to a 33 N·m torque in shoulder flexion/extension, abduction/adduction, intra/extra rotation, and elbow flexion/extension, with a range of 7.6-8.0 Hz position bandwidth in each actuation. CURER has a large range of motion and can provide accurate torque control for stroke patients' requirements. Besides, a comprehensive rehabilitation strategy including robot-in-charge mode and human-in-charge mode was developed for different recovery stages. Experiments carried out on CURER actuation units demonstrated good position and impedance control performance. Finally, a virtual reality training system was developed to assist the subjects to accomplish upper limb rehabilitation efficiently. |
| Author | Xiao, Xiaohui Liao, Junbei Lu, Linjun Guo, Zhao Qian, Wei Ai, Letian Li, Miao |
| Author_xml | – sequence: 1 givenname: Wei surname: Qian fullname: Qian, Wei organization: School of Power and Mechanical Engineering, Wuhan University, Wuhan, China – sequence: 2 givenname: Junbei surname: Liao fullname: Liao, Junbei organization: School of Power and Mechanical Engineering, Wuhan University, Wuhan, China – sequence: 3 givenname: Linjun surname: Lu fullname: Lu, Linjun organization: School of Mechanical and Mining Engineering, The University of Queensland, Brisbane, QLD, Australia – sequence: 4 givenname: Letian surname: Ai fullname: Ai, Letian organization: School of Power and Mechanical Engineering, Wuhan University, Wuhan, China – sequence: 5 givenname: Miao orcidid: 0000-0002-2244-2104 surname: Li fullname: Li, Miao organization: School of Power and Mechanical Engineering, Wuhan University, Wuhan, China – sequence: 6 givenname: Xiaohui orcidid: 0000-0002-8212-2452 surname: Xiao fullname: Xiao, Xiaohui organization: School of Power and Mechanical Engineering, Wuhan University, Wuhan, China – sequence: 7 givenname: Zhao orcidid: 0000-0002-4224-8595 surname: Guo fullname: Guo, Zhao organization: School of Power and Mechanical Engineering, Wuhan University, Wuhan, China |
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| SubjectTerms | Active control Actuation Actuators Anthropomorphism Cable-driven Cables Degrees of freedom Elbow Elbow (anatomy) Exoskeletons Lightweight Limbs Mechanical cables Misalignment Modulus of elasticity Pulleys Rehabilitation Robot arms Robots series elastic actuator (SEA) Shoulder Torque torque control upper limb exoskeleton robot Virtual reality Wrist |
| Title | CURER: A Lightweight Cable-Driven Compliant Upper Limb Rehabilitation Exoskeleton Robot |
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