论文信息 - Geometric approach to the accuracy analysis of a class of 3-DOF planar parallel robots

Geometric approach to the accuracy analysis of a class of 3-DOF planar parallel robots

Parallel robots are increasingly being used in industry for precise positioning and alignment. They have the advantage of being rigid, quick, and accurate. With their increasing use comes a need to develop a methodology to compare different parallel robot designs. However no simple method exists to adequately compare the accuracy of parallel robots. Certain indices have been used in the past such as dexterity, manipulability and global conditioning index, but none of them works perfectly when a robot has translational and rotational degrees of freedom. In a direct response to these problems, this paper presents a simple geometric approach to computing the exact local maximum position error and local maximum orientation error, given actuator inaccuracies. This approach works for a class of three-degree-of-freedom planar fully-parallel robots whose maximal workspace is bounded by circular arcs and line segments and is free of singularities. The approach is illustrated on three particular designs.

Ilian A. Bonev | Paul J. Zsombor-Murray | Alexander Yu

[1] F. Pierrot,et al. PRP Planar Parallel Mechanism in Configurations Improving Displacement Resolution , 2004 .

[2] Leo Joskowicz,et al. Computational Kinematics , 1991, Artif. Intell..

[3] J. Merlet. Jacobian, Manipulability, Condition Number and Accuracy of Parallel Robots , 2005, ISRR.

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

[5] Clément Gosselin,et al. Workspaces of Planar Parallel Manipulators , 1998 .

[6] C. Gosselin. The optimum design of robotic manipulators using dexterity indices , 1992, Robotics Auton. Syst..

[7] A. Yu,et al. New XY-Theta Positioning Table with Partially Decoupled Parallel Kinematics , 2006, 2006 IEEE International Symposium on Industrial Electronics.

[8] Jean-Pierre Merlet,et al. Dimensional Synthesis of Parallel Robots with a Guaranteed Given Accuracy over a Specific Workspace , 2005, Proceedings of the 2005 IEEE International Conference on Robotics and Automation.

[9] I.A. Bonev,et al. XY-Theta Positioning Table with Parallel Kinematics and Unlimited Theta Rotation , 2006, 2006 IEEE International Symposium on Industrial Electronics.

[10] Sébastien Briot,et al. Accuracy analysis of 3-DOF planar parallel robots , 2008 .