Artificial Gravity Space Station Systems Tested at NASA Marshall Space Flight Center
A proprietary cold gas engine thruster technology and software for an artificial gravity space station were recently tested at the NASA Marshall Space Flight Center. The successful tests represent a significant proprietary industry milestone in developing artificial gravity platforms.
“Our test was conducted in collaboration with NASA as part of our recent Umbrella Space Act Agreement (SAA).”
Rhonda Stevenson, Above
“This is exciting and further validation of our partial gravity control systems,” said Rhonda Stevenson, Above chief executive officer and president who oversaw the test accompanied by the Above engineering team, partners, and investors. “Our test was conducted in collaboration with NASA as part of our recent Umbrella Space Act Agreement (SAA).”
This SAA agreement provides access to facilities and support for systems testing, technology and tools and collaboration on multiple technologies that Above is developing for commercial, civil and government customers for habitable cislunar space stations and near-term launch projects.
Artificial Gravity Space Station Systems Tested in Near Frictionless Environment
The artificial gravity space station systems test was conducted in collaboration with the NASA Marshall Space Flight Center Flat Floor Robotics Lab in Huntsville. It offers an extremely flat surface which allows objects to move across it on a near frictionless cushion of air. Companies like Above Space collaborate with NASA MSFC’s lab to test their space engineering technologies in the same facility where NASA space shuttle and other space technologies have been validated.
Above conducted the test to validate its internally designed rocket thrusters, structure, avionics, and control algorithms to be used in maneuvering a space station that provides hybrid gravity and was able to validate the precision of its technologies as they would function in space.
A large space station will require the ability to provide and manipulate gravity for a variety of applications including manufacturing, research, defense, and tourism. The ability to spin or rotate a station creates a level of gravity and Above was able to validate the precision of its technologies as they might function in space.
“Above is well positioned with commercial and government partners to provide more space in space, using existing, commercial off the shelf technologies in new and innovative ways,” Stevenson says. “We’re taking the incremental steps to derisk our technology and demonstrate our near-term capabilities and relevancy for our longer-term objectives building platforms and ultimately full space station where people will live, work and play.”
(Source: Above news release. Images from file)