NASA Selects First Mode, ASU to Develop Marathon Moon Rover


Company Brings Expertise in Rover Systems, Surface Mobility, and MMRTG Integration to Pioneering Lunar Mission Study

SEATTLE -- First Mode has been selected by NASA to develop a pioneering lunar mission concept with Arizona State University (ASU). The effort will be funded through NASA’s Planetary Mission Concept Study program.

The Intrepid mission would develop and deploy the Intrepid rover to traverse the furthest distance of any rover in NASA’s history. The next-generation, 425 kilogram rover — roughly the size of a Quad-bike/ATV — will explore an unprecedented 1,800 kilometers over four years as it examines the geology of the lunar surface, preparing NASA for human exploration as it investigates over 100 major sites that have only been viewed from orbit.

Powered by a plutonium-based, multi-mission radioisotope thermoelectric generator (MMRTG), Intrepid will identify hydrogen (a proxy for water content) in the lunar regolith. Most strategies for a sustained human presence in space require mining water to support life and provide fuel. Additionally, Intrepid will map radiation, solar wind, and the chemical makeup of the regolith, helping to ensure the safety of future astronauts.

The study will be helmed by ASU’s Professor Mark Robinson who has been the Principal Investigator for NASA Lunar Reconnaissance Orbiter Camera for the past decade, which has mapped Apollo landing sites and almost the entire surface of the Moon with high-resolution images. Robinson is an expert in the field of planetary geology. He will lead a consortium of scientists from multiple NASA centers and universities with First Mode designing and configuring the system.

“The ASU team has been working on the Intrepid mission concept for nearly a decade and it is very gratifying to have the chance to work with NASA to advance idea to the next stage,” Professor Robinson said. “This award provides the means to iron out details of the rover design and science strategy, which ultimately could lead to Intrepid being included in a future mission competition.”

“We are excited to deliver First Mode’s expertise in rover systems, surface mobility, and MMRTG integration to this audacious mission concept and look forward to partnering with Professor Robinson and the ASU team,” Chris Voorhees, First Mode’s President and Chief Engineer, said.

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