论文信息 - Kinematics optimization for high positioning accuracy of a 4-DOF parallel manipulator for semiconductor applications

Kinematics optimization for high positioning accuracy of a 4-DOF parallel manipulator for semiconductor applications

The end-effector kinematics error of a manipulator is caused by variations in machining accuracy of linkages. In most manipulators, the structural design results in an error magnification from the linkage variation to the end-effector position. In this paper, an optimization approach for suppressing kinematics error magnification is considered for a 4-DOF parallel manipulator. Two objective functions are developed for characterizing the error magnification effect. The kinematic parameters are then determined by minimizing these objective functions. It is shown that the proposed approach can reduce the error magnification to such a degree that the magnification factor is reduced to close to one. This means that the end-effector kinematics error can be made to match the error tolerance allowed in the manufacturing of the linkages.

Y. S. Hung | J.W.F. Cheung

[1] Claude Reboulet,et al. Optimal design of a redundant spherical parallel manipulator , 1997, Robotica.

[2] L. Tsai,et al. Kinematics and Optimization of a Spatial 3-UPU Parallel Manipulator , 2000 .

[3] Clément Gosselin,et al. Kinematic Analysis and Optimization of a New Three Degree-of-Freedom Spatial Parallel Manipulator , 2000 .

[4] Jongeun Cha,et al. Optimal architecture design of parallel manipulators for best accuracy , 2001, Proceedings 2001 IEEE/RSJ International Conference on Intelligent Robots and Systems. Expanding the Societal Role of Robotics in the the Next Millennium (Cat. No.01CH37180).

[5] Soumya Bhattacharya,et al. On the optimum design of Stewart platform type parallel manipulators , 1995, Robotica.

[6] Roger Boudreau,et al. The synthesis of planar parallel manipulators with prismatic joints for an optimal, singularity-free workspace , 2002, J. Field Robotics.

[7] Ys Hung,et al. Design and analysis of a novel 4-dof parallel mini-manipulator for semiconductor applications , 2002 .

[8] Clément Gosselin,et al. A Global Performance Index for the Kinematic Optimization of Robotic Manipulators , 1991 .