Performance atlases of the workspace for planar 3-DOF parallel manipulators

Xin-Jun  Liu; Jinsong  Wang; Feng  Gao

doi:10.1017/S0263574700002678

Abstract

The design of the robotic mechanisms is most important because they determine the performance characteristics of the robots. This paper concerns the issue of computer-aided design (CAD) for planar 3-DOF parallel robotic mechanisms by means of the physical model of the solution space, which can be used systematically to express the relationships between the performance criteria and all link lengths of one type of the robtic mechanism. The performance atlases of the workspace volume for the manipulators are plotted in the physical model of the solution space. The characteristics of the distribution of the workspace shapes in the physical model of the solution space are presented. The results are useful for the optimum design of the robotic mechanisms. This paper proposes a new way for robotic CAD.

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Performance atlases of the workspace for planar 3-DOF parallel manipulators

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Performance atlases of the workspace for planar 3-DOF parallel manipulators

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