Design of a Knee Exoskeleton Using Foot Pressure and Knee Torque Sensors | Zendy

JungHoon Kim | Zendy; Myounghoon Shim | Zendy; Dong Hyun Ahn | Zendy; Byoung Jong Son | Zendy; Sukyoung Kim | Zendy; Deog Young Kim | Zendy; Yoon Su Baek | Zendy; BaekKyu Cho | Zendy

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Design of a Knee Exoskeleton Using Foot Pressure and Knee Torque Sensors

Author(s) -

JungHoon Kim,

Myounghoon Shim,

Dong Hyun Ahn,

Byoung Jong Son,

Sukyoung Kim,

Deog Young Kim,

Yoon Su Baek,

BaekKyu Cho

Publication year - 2015

Publication title -

international journal of advanced robotic systems

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.394

H-Index - 46

eISSN - 1729-8814

pISSN - 1729-8806

DOI - 10.5772/60782

Subject(s) - exoskeleton , computer science , torque , knee joint , modular design , pressure sensor , simulation , encoder , control theory (sociology) , control (management) , artificial intelligence , engineering , mechanical engineering , medicine , physics , surgery , thermodynamics , operating system

This study presents the development of a modular knee exoskeleton system that supports the knee joints of hemiplegic patients. The device is designed to realize the polycentric motion of real human knees using a four-bar linkage and to minimize its total weight. In order to determine the user's intention, force-sensitive resistors (FSRs) in the user's insole, a torque sensor on the robot knee joint, and an encoder in the motor are used. The control algorithm is based on a finite state machine (FSM), where the force control, position control and virtual damping control are applied in each state. The proposed hardware design and algorithm are verified by performing experiments on the standing walking and sitting motion controls while wearing the knee exoskeleton

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