25 September 2023

Astroport Space Technologies Awarded Second NASA Technology Research Contract For Lunar Construction


SAN ANTONIO – Astroport Space Technologies, Inc. has been awarded its second NASA Phase 1 Small Business Technology Transfer (STTR) contract for the construction of landing pads on the Moon.

Astroport and its research partner, The University of Texas at San Antonio (UTSA), will develop geotechnical engineering processes for “Lunar Surface Site Preparation for Landing/Launch Pad and Blast Shield Construction” with a focus on “regolith works” for bulk regolith excavation and movement.  The project will build on Astroport’s previous Phase 1 STTR-21 work on regolith melting technologies and robotic bricklaying systems for lunar infrastructure construction.

The new research will describe a multi-step Concept of Operations (CONOPS) for “regolith works” executed by multiple machines operating autonomously or in remote control mode with step sequencing/timing to enable machine-to-machine collaboration.  In particular, it will define conveyance techniques and sorting and filtering processes to prepare and deliver excavated regolith to Astroport’s Lunatron™ bricklayer system. 

The project will utilize space civil engineering expertise from the University of Adelaide’s Andy Thomas Centre for Space Resources (ATCSR) in Australia.  Venturi Astrolab of Hawthorne, CA, will provide consulting support for integration into the overall system architecture of their FLEX rover as a baseline robotic mobility platform operating a suite of excavation tools.  

Astroport’s Founder/CEO and Space Architect, Sam Ximenes said, “we are pleased that NASA continues to place confidence in our team’s ability to define and develop technologies and processes for lunar infrastructure construction. Under this new contract, the Astroport team will continue its work on the overall construction system architecture that we have started last year.  Our objectives are to advance the state-of-art with geotechnical engineering and civil engineering processes for bulk regolith manipulation using a “regolith works” toolset for preparation of the lunar launch/landing site”.

Principal investigator for UTSA, Dr. Sazzad Bin-Shafique, said “this research is a natural progression of the University’s regolith liquefaction investigations, in that the Phase 1 study will develop discreet-event modeling of the bulk regolith conveyance methods to help determine feeds rates for Astroport’s Lunatron™ bricklayer system.” UTSA co-principal investigator, Dr. Ibukun Awolusi, assistant professor of construction science and management stated that “leveraging innovative technologies and systems such as those proposed in this study offers remarkable opportunities for the use of lunar materials, construction processes, and our efforts toward achieving space sustainability.”

ATCSR is one of a handful of organizations globally that has focused on the development of “space civil engineering” processes for planetary construction. ATCSR has developed numerical modeling to represent the geotechnical behavior of the natural lunar regolith when subjected to load in a lunar environment. This numerical representation facilitates the modeling of a range of lunar construction activities, such as vehicular movement, excavation, and compaction.

John Culton, Director of the Andy Thomas Centre for Space Resources at the University of Adelaide said, “ATCSR is proud to support cutting-edge US partners leading the development of critical off-Earth civil engineering processes required to return humans to the Moon, ‘this time to stay'”.

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