Drop test for evaluating effect of cushioning material and servo gain on parachute landing impact using a small one-legged robot

2017 IEEE International Conference on Robotics and Biomimetics (ROBIO) Pub Date : 2017-12-01 DOI:10.1109/ROBIO.2017.8324791

T. Tsujita, Tadamasa Kitahara, R. Tahara, S. Abiko, A. Konno

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引用次数: 1

Abstract

To drop a humanoid robot with a parachute from an airplane is one of the promising ways of delivering robots to a disaster site, and this research has focused on how to absorb parachute landing shock. Two large impacts were observed in one drop test using a small one-legged robot in our previous experiment. The second peak could be reduced by the shock absorbing motion, but the first peak did not change dramatically even if the landing posture was changed. Therefore, this paper forces on how to reduce the first impact acceleration and discusses on effect of cushioning material and servo gain on the impact. It was found that the difference in the hardness of the cushioning material greatly influences the impact acceleration. There was a difference in impact acceleration more than twice between a soft cushion and a hard cushion. On the other hand, impact absorption effect by change of servo gain of robot's actuators was minor. Therefore, it is concluded that flexibility with hardware is also necessary for joints.

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利用小型单足机器人进行缓冲材料和伺服增益对降落伞着陆冲击影响的跌落试验

从飞机上空投带降落伞的人形机器人是将机器人送到灾难现场的一种很有前途的方式，研究的重点是如何吸收降落伞着陆的冲击。在我们之前的实验中，使用一个小型单腿机器人在一次跌落测试中观察到两次大的撞击。减震运动可以降低第二个峰值，但即使改变着陆姿势，第一个峰值也不会发生明显变化。因此，本文探讨了如何减小首次冲击加速度，并讨论了缓冲材料和伺服增益对冲击的影响。研究发现，缓冲材料的硬度差异对冲击加速度有较大影响。软垫和硬垫的碰撞加速度相差两倍多。另一方面，机器人作动器伺服增益的变化对冲击吸收的影响较小。因此，我们得出结论，关节也需要有硬件的灵活性。

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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2017 IEEE International Conference on Robotics and Biomimetics (ROBIO)

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