By Savannah Bullard
One year after winning second place in NASA's Break the Ice Lunar Challenge, members of the small business Starpath visited NASA's Marshall Space Flight Center in Huntsville, Alabama, as part of their prize opportunity to test their upgraded lunar regolith excavation and transportation rover in the center's 20-foot thermal vacuum chamber.
The technology startup headquartered in Hawthorne, California, won second place overall at the Break the Ice Lunar Challenge's live demonstration and finale in June 2024. This competition, one of NASA's Centennial Challenges, tasked competitors to design, build, and demonstrate robotic technologies that could excavate and transport the icy, rocky dirt - otherwise known as regolith - found on the Moon.
"NASA's Centennial Challenges are a great way to discover new, innovative technologies, including those for future use on the Moon and even Mars," said Naveen Vetcha, Break the Ice Lunar Challenge manager at NASA Marshall. "Working with winners after the challenge concludes is a perfect example of how we can use NASA facilities to continue advancing these technologies to generate valuable solutions for the agency and industry."
Starpath built a four-wheeled rover capable of excavating, collecting, and hauling material under extremely harsh environmental conditions that simulate the lunar South Pole. On the rover, a dual drum barrel can extend from the body of the robot - mimicking a movement similar to a crab's claws - and scrape into rough, hard regolith to excavate material quickly without compromising finite battery life.
Before Starpath made the 2,000-mile drive from California to Alabama this summer, NASA Marshall's Engineering Test Facility staff prepared a concrete slab outfitted with rocky terrain to act as a testbed for the robot to interact inside the chamber. The V-20 Thermal Vacuum Chamber, located at Marshall's Environmental Test Facility, can simulate harsh environments by manipulating the chamber's vacuum, temperature, humidity, and pressure effects. Starpath staff spent about three days at NASA Marshall in August, testing their robot with excavation and mobility trials while collecting data on its performance.
The Starpath team is honing the development of its technology for missions located at the permanently shadowed regions of the lunar South Pole. As a future landing site for NASA's Artemis missions, which will send astronauts to the Moon and prepare to send the first Americans to Mars, the South Pole region of the Moon is known to contain ice within its regolith. This was the leading inspiration behind the development of the Break the Ice Lunar Challenge, as NASA will require robust technologies that can excavate and transport lunar ice for extraction, purification, and use as drinking water or rocket fuel.
