仿人机器人滑橇式行走力矩及接触力分析

2015 IEEE International Conference on Technologies for Practical Robot Applications (TePRA) Pub Date : 2015-05-11 DOI:10.1109/TePRA.2015.7219667

Hongfei Wang, Yuan F. Zheng

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引用次数: 1

摘要

在我们之前的工作中，我们为类人机器人引入了一种新的步态，称为Ski-Type walking，以提高崎岖地形行走的稳定性。人形机器人通过手臂握住两根手杖辅助行走，从而获得了更大的稳定裕度。当手杖和脚接触地面时，形成一个封闭的链系统，手杖和脚之间的力/扭矩分布不是唯一的。我们制定并分析了SkiType在初始姿态下行走时的外部和内部力/扭矩，以确定实现最佳力/扭矩分配的策略。这一结果将使我们未来的研究能够设计出既指定关节运动轨迹又指定扭矩的动态步态。

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Torque and contact force analysis of Ski-Type walking for humanoid robots

In our previous work, we introduced a new gait for humanoid robots called Ski-Type walking to improve stability performance for rough terrain walking. By the arms holding two canes to assist walking, the humanoid robot benefits from enlarged stability margin. With canes and feet touching the ground, a closed-chain system is formed where force/torque distribution among the canes and feet is not unique. We formulate and analyze both external and internal forces/torques in SkiType walking at its initial posture to determine the strategy for achieving optimal force/torque distribution. The result will enable our future study is designing dynamic gaits which specify not motion trajectories of the joints but also torques to according a desired criterion.

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2015 IEEE International Conference on Technologies for Practical Robot Applications (TePRA)

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