Development and Evaluation of Mobility and Excavation Rover Toward Lunar Base Construction

Pub Date : 2024-04-20 DOI:10.20965/jrm.2024.p0334
M. Sutoh
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Abstract

The exploration and utilization of water resources on the Moon are of substantial global interest. To utilize lunar resources and construct bases, the construction machinery should travel over the lunar surface (which is mainly covered with powdery regolith) and excavate the regolith. However, various technical issues should be resolved to achieve this efficiently. In this study, a new platform rover was developed, and its motion behavior was analyzed to better understand the traveling and excavation behaviors of construction machinery on the Moon. The rover is a four-track vehicle equipped with a robotic arm consisting of a boom, arm, and bucket. To analyze the rover’s motion behavior in sandy terrain, we first developed a simulator based on terramechanics and performed a numerical analysis. Subsequently, various experiments were conducted using the rover in the JAXA Space Exploration Field, which simulates the lunar environment. In the experiments, the rover traveled over level and sloped terrains and excavated the ground. The simulation and experimental results revealed similar trends in the traveling and excavation behaviors of the rover. These results can serve as basic guidelines for the design and operation of construction machinery on the Moon.
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开发和评估用于建造月球基地的移动和挖掘漫游车
月球水资源的勘探和利用是全球关注的焦点。为了利用月球资源和建设基地,工程机械必须在月球表面(主要是粉状的碎屑岩)行走并挖掘碎屑岩。然而,要有效实现这一目标,需要解决各种技术问题。本研究开发了一种新型平台漫游车,并对其运动行为进行了分析,以更好地了解工程机械在月球上的行走和挖掘行为。该漫游车是一个四履带车辆,配备了一个由吊臂、机械臂和铲斗组成的机械臂。为了分析月球车在沙质地形中的运动行为,我们首先开发了一个基于地形力学的模拟器,并进行了数值分析。随后,我们在模拟月球环境的 JAXA 太空探索场使用漫游车进行了各种实验。在实验中,月球车在平坦和倾斜的地形上行驶,并挖掘地面。模拟和实验结果表明,月球车的行进和挖掘行为具有相似的趋势。这些结果可作为在月球上设计和操作工程机械的基本准则。
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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