Astrobotic awarded contract to study a medium lunar lander and large rover mission to the South Pole of the Moon
The mission would be a robotic precursor, paving the way for the first NASA human lander mission in 2024
Pittsburgh, PA – Astrobotic announces today it was one of two companies selected by NASA’s Commercial Lunar Payload Services (CLPS) program to study the first payload delivery mission to the South Pole of the Moon. The mission would deliver NASA payloads to investigate lunar volatile elements such as hydrogen and oxygen, which could one day be used by NASA and the private sector for astronaut life support and in-space rocket fuel.
The study contract awarded to Astrobotic will analyze how Astrobotic’s medium lunar lander Griffin, and its workhorse rover Polaris, could deliver volatile-detecting payloads to the lunar South Pole. The mission would also pave the way for NASA’s human lander mission in 2024, and survey the landing site for the first human mission to the Moon since the Apollo program.
“The ability to detect, extract and process Hydrogen and oxygen at the Moon holds great promise for dramatically lowering the cost of living and working in space, and Griffin and Polaris were both designed to pursue exactly these kinds of lunar resource opportunities,” said Astrobotic CEO John Thornton. “Griffin and Polaris are years in the making, and both are complementary to the cislunar service capabilities our Peregrine lunar lander will demonstrate when it flies in 2021. As a result of our product-line approach to lunar logistics, these three vehicles share common parts, components, and design philosophies. When Peregrine flies in 2021, many of our approaches and hardware will be validated for Griffin and Polaris,” he said.
Griffin is a lunar lander product line that will carry 400 kg of uncrewed payload to the Moon. With Griffin’s robust delivery capacity, the lunar surface is open to companies, governments, universities, and individuals for next-generation lunar surface activities. Polaris is a commercial “pick-up” truck for the Moon, capable of hosting 90 kg of mobile lunar surface payload for numerous mission types including resource prospecting, in-situ resource utilization, sample return, fuel production, technology demonstration, long distance traverse, and marsupial supported missions.
With this NASA study in place and 29 payload deals from 8 countries signed for Peregrine Mission One, Astrobotic is making the Moon accessible to the world with end-to-end delivery services and industry-leading space robotics.