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Couple Control Model Implementation on Antagonistic Mono- and Bi-Articular Actuators

Recently, robot assisted therapy devices are increasingly used for spinal cord injury (SCI) rehabilitation in assisting handicapped patients to regain their impaired movements. Assistive robotic systems may not be able to cure or fully compensate impairments, but it should be able to assist certain impaired functions and ease movements. In this study, a couple control model for lower-limb orthosis of a body weight support gait training system is proposed. The developed leg orthosis implements the use of pneumatic artificial muscle as an actuation system. The pneumatic muscle was arranged antagonistically to form two pair of mono-articular muscles (i.e., hip and knee joints), and a pair of bi-articular actuators (i.e., rectus femoris and hamstring). The results of the proposed couple control model showed that, it was able to simultaneously control the antagonistic mono- and bi-articular actuators and sufficiently performed walking motion of the leg orthosis.

preprint2014arXivOpen access
Flavio PratticoMohd Azuwan Mat DzahirShin-ichiroh Yamamoto
physics.med-phRobotics
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Flavio PratticoMohd Azuwan Mat DzahirShin-ichiroh Yamamoto

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