Increasing Efficiency of Force-Controlled Robotic Assembly: -Design of Damping Control Parameters Considering Cycle Time- |
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Authors: | T Arai Y Maeda T Kato |
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Affiliation: | a Dept. of Precision Engineering, School of Engineering, The Univ. of Tokyo, Tokyo, Japan b Div. of Systems Research, Faculty of Engineering, Yokohama National Univ., Yokohama, Japan c Robot Laboratory, FANUC LTD., Yamanashi, Japan |
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Abstract: | Parameter tuning of force control to achieve operations efficiently in robotic assembly is essential but time-consuming. In this paper, an optimal set of parameters for damping control is computed, which can reduce the cycle time of an assembly operation. The proposed method is formulated as a nonlinear optimization using a dynamic simulator based on 3D geometric model of assembled parts. The method is applied to clutch assembly for practical use. The results verify how the operations can be sped up using the obtained parameters. The proposed method enables users to introduce force control agilely. |
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Keywords: | Robot Optimization Force Control |
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