A basic study on admittance control using torsional torque control for a two-inertia system

Takaaki Hayashi, S. Yamada, H. Fujimoto
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Abstract

Demand for cooperative robots is increasing. One of their control methods is admittance control. Not many studies worked on admittance control for a plant with resonance. We aimed at designing the control system so that the whole system does not vibrate at the anti-resonance frequency of the plant. The admittance control was attributed to the torsional torque control. The effectiveness of the proposed method in vibration due to a dynamics of a two-inertia system was validated in the simulations and experiments, especially by the result of time response that showed the reduction of the overshoot by more than 30%.
双惯量系统扭转转矩导纳控制的基础研究
对协作机器人的需求正在增加。它们的控制方法之一是导纳控制。对共振装置导纳控制的研究并不多。我们的目标是设计控制系统,使整个系统不以工厂的反谐振频率振动。导纳控制归因于扭转转矩控制。通过仿真和实验验证了该方法对双惯性系统动态振动的有效性,特别是时间响应的结果表明,该方法的超调量降低了30%以上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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