Dynamic Coupling as an Indicator of Gait Robustness for Underactuated Biped Robots

Martin Fevre, J. Schmiedeler
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引用次数: 4

Abstract

This paper employs velocity decomposition of underactuated mechanical systems to determine the degree of dynamic coupling in the gaits of a two-link biped model. The degree of coupling between controlled and uncontrolled directions quantifies the control authority the system has over its unactuated degree of freedom. This paper shows that the amount of coupling is directly correlated to gait robustness, as seen through the size of the gait’s region of attraction. The analytical measure of coupling is applied in the context of trajectory optimization to generate two-link gaits that maximize or minimize coupling. Simulation studies show that gaits maximizing coupling exhibit significantly superior robustness, as measured by 1) stochastic performance on uneven terrain, 2) ability to maintain desired walking speed under non-vanishing disturbances, 3) size of the region of attraction, and 4) robustness to model uncertainties.
欠驱动双足机器人步态鲁棒性的动态耦合指标
本文采用欠驱动机械系统的速度分解来确定两连杆双足模型步态的动态耦合程度。受控方向和非受控方向之间的耦合程度量化了系统对其非驱动自由度的控制权限。本文表明,通过步态吸引区域的大小可以看出,耦合的数量与步态的鲁棒性直接相关。将耦合的解析度量应用于轨迹优化中,生成最大或最小耦合的双连杆步态。仿真研究表明,步态最大化耦合具有显著的鲁棒性,包括:1)在不平坦地形上的随机性能,2)在不消失干扰下保持所需步行速度的能力,3)吸引力区域的大小,以及4)对模型不确定性的鲁棒性。
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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