Hiroyuki Kitamoto scite author profile

<div class=""abs_img""><img src=""[disp_template_path]/JRM/abst-image/00260005/17.jpg"" width=""150"" /> Subsurface explorer robot</div> We have developed a small, unmanned explorer robot to investigate the undergrounds of satellites and planets. This paper describes the developed excavation robot, which is based on earthworm locomotion. The robot demonstrates excavation activity at 1/6 of its own weight, mimicking the light gravity conditions of the Moon. We conclude that the robot is suitable for future excavation missions. </span>

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Propulsion Mechanism for a Lunar Subterranean Excavator Using Peristaltic Crawling

Kitamoto¹,

Omori²,

Nagai³

et al. 2013

J. Robot. Mechatron.

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Exploration below the lunar surface has great potential for scientific progress and the future of space explanation. However, as of now, little is known about the environment of the lunar subsurface, but the international space community has plans to explore it. The development of an excavator that can perform underground investigations has been needed, so we have developed one with a peristaltic crawling mechanism. The robot consists of propulsion and excavation units. The propulsion unit consists of three propulsion subunits which together form the peristaltic crawling mechanism. The excavation unit has an earth auger to dig up and transport soil. In this study, we propose a new type of propulsion subunit. It has a belt drive system to facilitate the smooth movement of the propulsion subunits, and it enables the robot to support three subunits. We also perform experiments in which the excavation robot burrows into red soil to depths of up to 600 mm.

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2P1-M07 Excavation Evaluation of Excavation Mechanisms for Planetary Underground Explorer Robot(Space Engineering and Robotics and Mechatronics)

et al. 2013

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1A2-L07 Development of the excavation robot with the peristaltic motion for investigation of the moon subsurface(Space Engineering and Robotics and Mechatronics(1))

et al. 2012

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