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Indexed by:会议论文

Date of Publication:2016-01-01

Included Journals:EI、CPCI-S

Volume:36

Page Number:715-724

Key Words:Robots; Link errors; Kinematic pair errors; Saddle point programming

Abstract:A novel approach is proposed in this paper to identify the link and kinematic pair errors of a SCARA robot. When geometric errors and elastic deformations are taken into consideration, an actual revolute joint permits motion of the moving link with respect to the fixed link with a total of six DOFs including the nominal rotational motion about the ideal R-joint axis. The actual moving axis of the R-joint is determined using the saddle point programming. The kinematic pair error is designated as the fitting error between the saddle constant axis ruled surface and the line-trajectory. The numerical results obtained using the proposed theory for a case study show good agreement with the experimental data.