Kun Wang, Zhijiang Xie, Zhongyi Li, Shaoping Bai
In this work, a parameterized model of 3-RRR planar parallel manipulator is proposed, aiming to optimize the overall performance with optimum shapes and sizes of the base and mobile platforms. In the model, the inverse and direct kinematics are addressed, upon which the global kinematic performance in terms of dexterity index is calculated and analyzed.
A shape and dimensional optimization is accomplished through the atlasbased method. Optimum configurations are obtained from the global performance atlases. Moreover, sensitivity analysis of overall kinematic performance with respect to each configuration parameter of planar 3-RRR parallel manipulator is performed to reveal the influences of the design parameters. A case study is included to present a more detailed design of 3-RRR manipulator.
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