Tripod gait using buffer area around leg workspace for flexible direction change

2020 17th International Conference on Ubiquitous Robots (UR) Pub Date : 2020-06-01 DOI:10.1109/UR49135.2020.9144921

Kenichi Ishida, T. Takubo, Daiki Kobayashi, A. Ueno

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Abstract

The tripod gait using a buffer area around leg workspace is proposed to improve the mobility of the hexapod robot. The proposed method provides the buffer area for the support leg located near the border of the workspace to make a continuous walking motion when the walking direction is suddenly changed from the current walking direction. The change of direction is frequently occurred in the teleoperation by the operator to adapt to the remote environment and the required tasks. In the case of a fixed workspace, the group of the support leg when it located on the border of the workspace has to stop the motion until the group of the swing leg will reach to a new landing position corresponding to the commanded direction. Since the buffer area is given to the support leg, it can move until the swing leg will land to the new target position for the direction change. In this paper, the buffer area is defined around the workspace so that the trajectory generation method of the direction change of the support leg and the swing leg using the buffer area are implemented. The smooth direction change using the proposed method is shown based on the actual robot parameters.

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三脚架步态采用缓冲区域围绕腿的工作空间灵活的方向变化

为了提高六足机器人的机动性，提出了在腿部工作空间周围设置缓冲区域的三脚架步态。该方法为位于工作空间边界附近的支撑腿提供缓冲区，使其在当前行走方向突然改变时进行连续行走运动。为适应远程环境和任务要求，操作者在远程操作中经常发生方向变化。在固定工作空间的情况下，当支撑腿组位于工作空间边界时，必须停止运动，直到摆腿组到达与指令方向相对应的新着陆位置。由于缓冲区域是给支撑腿的，所以它可以移动，直到摇摆腿着陆到新的目标位置进行方向改变。本文在工作空间周围定义了缓冲区，实现了支撑腿和摆腿利用缓冲区进行方向变化的轨迹生成方法。基于机器人的实际参数，给出了采用该方法进行方向平滑变换的结果。

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2020 17th International Conference on Ubiquitous Robots (UR)

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