Inertia Estimation of Quadruped Robot under Load and Its Walking Control Strategy in Urban Complex Terrain

2023 IEEE International Conference on Robotics and Biomimetics (ROBIO) Pub Date : 2023-12-04 DOI:10.1109/ROBIO58561.2023.10354861

Qiang Fu, Muxuan Han, Yunjiang Lou, Ke Li, Zhiyuan Yu

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Abstract

When the quadruped robot is engaged in logistics transportation tasks, it encounters a challenge where the distribution of the center of mass (CoM) of the loaded items is not only random but also subject to time variations. Consequently, the robot becomes susceptible to non-zero resultant torques, which inevitably impact its body posture during the walking process. This paper proposes a method to estimate the CoM inertia using four one-dimensional force sensors and a walking control strategy for complex urban terrain. The inertia tensor and CoM of the load are first estimated, then the robot’s dynamics are compensated, and foothold adjustments are made for underactuated orientations to compensate for the extra moment generated by the CoM offset. For uneven terrain, the terrain estimator and event-based gait are used to adjust the robot’s gait to reduce the impact of terrain changes on the robot. The effectiveness of the proposed method and the feasibility of load walking in urban terrain are verified through comparative experiments, complex terrain load walking experiments in Webots, and real prototype experiments.

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负载下四足机器人的惯性估计及其在城市复杂地形中的行走控制策略

当四足机器人执行物流运输任务时，会遇到这样一个挑战：装载物品的质心（CoM）分布不仅是随机的，还会受时间变化的影响。因此，机器人在行走过程中很容易受到非零结果扭矩的影响，从而不可避免地影响其身体姿态。本文提出了一种利用四个一维力传感器估算 CoM 惯量的方法，以及针对复杂城市地形的行走控制策略。首先对负载的惯性张量和CoM进行估算，然后对机器人的动力学进行补偿，并对未充分驱动的方向进行立足点调整，以补偿CoM偏移产生的额外力矩。对于不平坦的地形，则使用地形估计器和基于事件的步态来调整机器人的步态，以减少地形变化对机器人的影响。通过对比实验、Webots 中的复杂地形负重行走实验和实际原型实验，验证了所提方法的有效性和在城市地形中负重行走的可行性。

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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2023 IEEE International Conference on Robotics and Biomimetics (ROBIO)

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