NASA will partner with seven U.S. companies to meet future commercial and government needs, ultimately benefitting human spaceflight and the U.S. commercial low Earth orbit economy.
Through unfunded Space Act Agreements, the second Collaborations for Commercial Space Capabilities-2 initiative (CCSC-2) is designed to advance commercial space-related efforts through NASA contributions of technical expertise, assessments, lessons learned, technologies, and data. Structured sharing of NASA expertise demands minimal government resources but fosters development of capabilities that can be crucial to development of a robust low Earth orbit economy.
Artist’s concept of Northrop Grumman’s Persistent Platform concept in low Earth orbit.
Credits: Northrop Grumman
The companies selected for the Collaborations for Commercial Space Capabilities-2 are:
- Blue Origin, Kent, Washington
- Northrop Grumman Systems Corporation, Dulles, Virginia
- Sierra Space Corporation, Broomfield, Colorado
- Space Exploration Technologies Corporation, Hawthorne, California
- Special Aerospace Services, Boulder, Colorado
- ThinkOrbital Inc., Lafayette, Colorado
- Vast Space LLC, Long Beach, California
Artist’s concept of Sierra Space’s crewed Dream Chaser spaceplane docking to the company’s LIFE habitat.
Credits: Sierra Space
“It is great to see companies invest their own capital toward innovative commercial space capabilities, and we’ve seen how these types of partnerships benefit both the private sector and NASA,” said Phil McAlister, director of commercial spaceflight at NASA Headquarters in Washington, D.C. “The companies can leverage NASA’s vast knowledge and experience, and the agency can be a customer for the capabilities included in the agreements in the future. Ultimately, these agreements will foster more competition for services and more providers for innovative space capabilities.”
SpaceX’s Starship rocket sits on a launch pad at the company’s Starbase in Texas.
NASA selected these proposals based on an evaluation of their relevance to achieving the agency’s goals and its ability to provide the requested resources, as well as the feasibility of the company’s business and technical approach. Each party bears the cost of its participation through the agreements.
A Special Aerospace Services engineer tests the company’s Autonomous Maneuvering Unit.
Credits: Special Aerospace Services
Blue Origin is collaborating with NASA to develop integrated commercial space transportation capability that ensures safe, affordable, and high-frequency US access to orbit for crew and other missions.
Artist’s concept of ThinkOrbital’s ThinkPlatform in low Earth orbit.
Northrop Grumman is collaborating with NASA on the company’s Persistent Platform to provide autonomous and robotic capabilities for commercial science research and manufacturing capabilities in low Earth orbit
Sierra Space is collaborating with NASA for the development of the company’s commercial low Earth orbit ecosystem, including next-generation space transportation, in-space infrastructure, and expandable and tailorable space facilities providing a human presence in low Earth orbit.
Artist’s concept of Vast’s Haven-1 commercial space station in low Earth orbit.
SpaceX is collaborating with NASA on an integrated low Earth orbit architecture to provide a growing portfolio of technology with near-term Dragon evolution and concurrent Starship development. This architecture includes Starship as a transportation and in-space low-Earth orbit destination element supported by Super Heavy, Dragon, and Starlink, and constituent capabilities including crew and cargo transportation, communications, and operational and ground support.
Special Aerospace Services is collaborating with NASA on an in-space servicing technology, propulsion, and robotic technology called the Autonomous Maneuvering Unit (AMU) and the Astronaut Assist-AMU for commercial in-space servicing and mobility applications intended for safer assembly of commercial low Earth orbit destinations, servicing, retrieval, and inspection of in-space systems.
ThinkOrbital is collaborating with NASA on the development of ThinkPlatforms and CONTESA (Construction Technologies for Space Applications). ThinkPlatforms are self-assembling, single-launch, large-scale orbital platforms that facilitate a wide array of applications in low Earth orbit, including in-space research, manufacturing, and astronaut missions. CONTESA features welding, cutting, inspection, and additive manufacturing technologies, and aids in large-scale in-space fabrication.
Vast is collaborating with NASA on technologies and operations required for its microgravity and artificial gravity stations. This includes the Haven-1 commercial destination, which will provide a microgravity environment for crew, research, and in-space manufacturing, and the first crewed mission, called Vast-1, to the platform. Development activities for larger space station modules will also take place under the Space Act Agreement.
NASA’s support for a robust low Earth orbit economy is intended to boost education and job growth in science and engineering, and to spur economic growth through the creation of new space markets. The first Collaborations for Commercial Space Capabilities selections in 2014 supported development of four collaborations associated commercial rockets, spacecraft, and spacesuits.
For decades, NASA has supported a continuous U.S. human presence in low Earth orbit with astronauts living and working aboard the International Space Station. In 2019, NASA adopted a strategy to help achieve the agency’s goal of a low Earth orbit marketplace where NASA is one of many customers and the private sector leads the way. This strategy will enable NASA to continue using low Earth orbit to foster scientific discovery and technology development that both improves life on Earth and advances human exploration into deep space.
For more information about NASA initiatives and commercial space, visit: https://www.nasa.gov/leo-economy