1. Ayak bileği ve diz rehabilitasyonunda pasif egzersizler için stewart platform tabanlı robot tasarımı.
- Author
-
Budaklı, Merve Teke and Yılmaz, Cüneyt
- Subjects
- *
PARALLEL robots , *ROBOT design & construction , *NEWTON-Raphson method , *RANGE of motion of joints , *KINEMATIC chains , *ANKLE , *KNEE , *SHARED workspaces - Abstract
Nowadays, usage of robots in industry and daily life is increasing, additionally, different robot designs are developed in order to fulfill the applications optimally by means of robots. Parallel robots have a restricted workspace due to their closed chain kinematic structure. However, this kinematic structure provides the robot high positioning accuracy and rigidity. Precise positioning and rigidity are most important key aspects for rehabilitation robots, therefore parallel robots are very suitable for rehabilitation applications. However, the limited workspace of the parallel robot creates a limitation in joint range of motion. In this study, a new rehabilitation robot was designed with the addition of Stewart Platform structure, 7th linear actuator and mechanical part, thus extending the workspace and providing rehabilitation to ankle and knee joints. The robot is configured by combining mechanical design, electronic hardware, mathematical model based on the Newton-Raphson method for forward kinematics as well as vectorial approach for inverse kinematics, and PID position control. Experiments were performed on human leg; ankle and knee range of motion and positioning results are evaluated and compared with literature. According to experimental measurements, the time delay in trajectory tracking was less than 0.5 seconds and the maximum angle deviation was 1.2°. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF