Use of gravitational stiffness in an attractor-based Whole-Body Motion Control approach

机译：在基于吸引子的整体运动控制方法中使用重力刚度

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This paper presents an analysis of the relation between effort and gravitational stiffness, two physical measures that depend on the configuration of the robot. It is shown that whenever the gravitational stiffness is maximized, the effort is indirectly minimized. A minimum effort attractor that controls the gravitational stiffness is presented. This attractor together with an attractor to zero joint momentum guarantee balance maintenance. The novel implementation of the attractor-based Whole-body Motion Control (WBMC) System is experimentally tested: first with simple models, and finally with the full-body humanoid robot COMAN in a physical simulation.

机译：本文对力和重力刚度之间的关系进行了分析，这是两种取决于机器人配置的物理量度。结果表明，每当重力刚度最大化时，力就间接地最小化。介绍了控制重力刚度的最小费力吸引器。该吸引器与零关节动量的吸引器一起确保平衡。基于吸引子的全身运动控制（WBMC）系统的新颖实现已通过实验进行了测试：首先是通过简单的模型，最后是在人体仿真中使用全身人形机器人COMAN。

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《IEEE-RAS International Conference on Humanoid Robots》|2015年|421-427|共7页
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Moro Federico L.;
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Use of gravitational stiffness in an attractor-based Whole-Body Motion Control approach

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