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http://dx.doi.org/10.5302/J.ICROS.2011.17.8.814

A Novel Kinematic Design of a Knee Orthosis to Allow Independent Actuations During Swing and Stance Phases  

Pyo, Sang-Hun (Gyeongsang National University)
Kim, Gab-Soon (Gyeongsang National University)
Yoon, Jung-Won (Gyeongsang National University)
Publication Information
Journal of Institute of Control, Robotics and Systems / v.17, no.8, 2011 , pp. 814-823 More about this Journal
Abstract
Nowadays many neurological diseases such as stroke and Parkinson diseases are continually increasing. Orthotic devices as well as exoskeletons have been widely developed for supporting movement assistance and therapy of patients. Robotic knee orthosis can compensate stiff-knee gait of the paralyzed limb and can provide patients consistent assistance at wearable environments. With keeping a robotic orthosis wearable, however, it is not easy to develop a compact and safe actuator with fast rotation and high torque for consistent supports of patients during walking. In this paper, we propose a novel kinematic model for a robotic knee orthosis to drive a knee joint with independent actuation during swing and stance phases, which can allow an actuator with fast rotation to control swing motions and an actuator with high torque to control stance motions, respectively. The suggested kinematic model is composed of a hamstring device with a slide-crank mechanism, a quadriceps device with five-bar/six-bar links, and a patella device for knee covering. The quadriceps device operates in five-bar links with 2-dof motions during swing phase and is changed to six-bar links during stance phase by the contact motion to the patella device. The hamstring device operates in a slider-crank mechanism for entire gait cycle. The kinematics and velocity/force relations are analyzed for the quadriceps and hamstring devices. Finally, the adequate actuators for the suggested kinematic model are designed based on normal gait requirements. The suggested kinematic model will allow a robotic knee orthosis to use compact and light actuators with full support during walking.
Keywords
human body dynamics; knee orthosis; biomechanics; gait rehabilitation; exoskeleton;
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