Abstract
A new applicable sitting/lying lower limb rehabilitation robot is proposed to help stroke patients. It can realize the sitting/lying training postures to fit people in all the rehabilitation stages. Based on the modularization design, the movable seat can be separated from and grouped into the lower limb rehabilitation robot, which is convenient for patients to sit down. As the most important part of lower limb rehabilitation robot, the mechanical leg design theory is introduced in detail. According to the physician clinical suggestions, a new trajectory planning method is proposed based on the dual quartic polynomial interpolation method. It could realize the adjustment of each joint maximum velocity during the training on account of patient recovery. The accelerations of the joints at target position equal zero, which will reduce impact loads on the patients damaged leg. Also, the dwell time the joints staying at the target angular positions can be increased. Those advantages make the lower limb rehabil...
Highlights
According to the statistics of the World Health Organization (WHO), the world population of people over 60 will be double by 2050
This article put forward a new sitting/lying lower limb rehabilitation robot, LLR-Ro
The object of the LLR-Ro passive training control strategy is to obtain the mechanical leg moving on the desired trajectory, while joint velocities and accelerations could meet the lower limb rehabilitation theory
Summary
According to the statistics of the World Health Organization (WHO), the world population of people over 60 will be double by 2050. Keywords Lower limb, rehabilitation robot, mechanism design, virtual reality, trajectory planning
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