Title :
Kinematic Optimal Design of 6-UPS Parallel Manipulator
Author :
Zhang, Yifeng ; Yao, Yu
Author_Institution :
Control & Simulation Center, Harbin Inst. of Technol.
Abstract :
Kinematic design of parallel manipulator based on optimal articular velocities is presented in this paper. For the same kinematic performance of end-effector, the required articular velocities should be as lower as possible. So the concept of velocity transformation factor, which reflects the magnitude of articular velocities, is proposed. Then, the optimal design problem is formulated to find a manipulator geometry that minimizes the global velocity transformation factor. Since the optimal design problem is a constrained nonlinear optimization problem without explicit analytical expressions, the genetic algorithm is applied to numerically solve the problem. A commonly-used Stewart-Gough platform is employed as an example to demonstrate the design procedure
Keywords :
control system synthesis; end effectors; genetic algorithms; geometry; manipulator kinematics; optimal control; 6-UPS parallel manipulator; Stewart-Gough platform; end-effector; genetic algorithm; kinematic optimal design; manipulator geometry; optimal articular velocities; Algorithm design and analysis; Constraint optimization; Design automation; Design optimization; Genetic algorithms; Geometry; Kinematics; Mechatronics; Optimal control; Velocity control; Kinematics; Optimal design; Parallel manipulator;
Conference_Titel :
Mechatronics and Automation, Proceedings of the 2006 IEEE International Conference on
Conference_Location :
Luoyang, Henan
Print_ISBN :
1-4244-0465-7
Electronic_ISBN :
1-4244-0466-5
DOI :
10.1109/ICMA.2006.257697
