LunarLeaper—A mission concept to explore the lunar subsurface with a small-scale legged robot

摘要

We present the LunarLeaper mission concept, which aims to robotically investigate volcanic pits on the lunar surface. Volcanic pits, or skylights, are collapse features that may provide access to subsurface lava tubes, which could serve as shelters for future human explorers and offer insight into the volcanic history of the Moon by exposing ancient lava flows. The existence and extent of large caves are still debated today and require in situ analysis. The Marius Hills site in particular offers a potential entry point to a cave system in a volcanic region on the lunar nearside. Our mission aims to deploy a payload-equipped 15kg-class legged robot that can approach a pit, such as the Marius Hills pit, while taking measurements during the traverse. During the mission, measurements from a ground-penetrating radar (GPR) and a gravimeter will allow us to survey the subsurface and map any underlying lava tube, if present. The mission will investigate key questions regarding lunar volcanism, such as the existence and geometry of subsurface caves and the magnitude and timing of lava flows, while assessing the site’s suitability for future human utilization and habitation. Furthermore, the mission will demonstrate key enabling technologies such as legged robots, serving as building blocks for the next generation of planetary missions. • The LunarLeaper mission concept proposes a 15kg-class legged robot to investigate the existance of lunar lava tubes and volcanic pits. • Autonomous, legged robotic exploration enables geophysical surveys and high-resolution imaging of the Marius Hills Pit within one lunar day. • Legged locomotion technology demonstrates enhanced mobility for traversing complex lunar terrain.