Compliance-based dynamic steering for hexapods

David Zarrouk, R. Fearing
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引用次数: 17

Abstract

This paper proposes a novel dynamic gait of locomotion for hexapedal robots which enables them to crawl forward, backward, and rotate using a single actuator. The gait exploits the compliance difference between the two sides of the tripods, to generate clockwise or counter clockwise rotation by controlling the acceleration of the robot. The direction of turning depends on the configuration of the legs -tripod left of right- and the direction of the acceleration. Alternating acceleration in successive steps allows for continuous rotation in the desired direction. An analysis of the locomotion is presented as a function of the mechanical properties of the robot and the contact with the surface. A numerical simulation was performed for various conditions of locomotion. The results of the simulation and analysis were compared and found to be in excellent match.
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基于顺应性的六足动态转向
提出了一种新型的六足机器人动态运动步态,使六足机器人能够在单一驱动器的作用下向前、向后和旋转爬行。步态利用三脚架两侧的顺应性差异,通过控制机器人的加速度来产生顺时针或逆时针的旋转。转弯的方向取决于腿的结构——三脚架的左或右——以及加速度的方向。交替加速在连续的步骤允许在所需的方向连续旋转。分析了机器人的运动作为机械性能和与表面接触的函数。对不同的运动条件进行了数值模拟。将仿真结果与分析结果进行了比较,发现两者非常吻合。
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