Dynamic formulation of a planar 3-DOF parallel manipulator with actuation redundancy |
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Authors: | Liping Wang Jun Wu Jinsong Wang |
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Affiliation: | aInstitute of Manufacturing Engineering, Department of Precision Instruments, Tsinghua University, Beijing 100084, People's Republic of China |
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Abstract: | In this paper, based on the conventional Newton–Euler approach, a simplification method is proposed to derive the dynamic formulation of a planar 3-DOF parallel manipulator with actuation redundancy. Closed-form solutions are developed for the inverse kinematics. Based on the kinematics, the Newton–Euler approach in simplification form is used to derive the inverse dynamic model of the redundant parallel manipulator. Then, the driving force optimization is performed by minimizing an objective function which is the square of the sum of four driving forces. The dynamic simulations are done for the parallel manipulator with both the redundant and non-redundant actuations. The result shows that the dynamic characteristics of the manipulator in the redundant case are better than that in the non-redundancy. The redundantly actuated parallel manipulator was incorporated into a 4-DOF hybrid machine tool which includes a feed worktable. |
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Keywords: | Planar parallel manipulator Actuation redundancy Inverse dynamic model |
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