LM 50 satellites demonstrate advanced navigational algorithms and cloud-based operations
Lockheed Martin today announced that its In-space Upgrade Satellite System (LM LINUSS™) accomplished a successful on-orbit demonstration, proving how small satellites can serve an essential role in sustaining critical space architectures. They do this by regularly upgrading existing constellations with new capabilities and extending spacecraft design lifecycles.
LM LINUSS, a technology demonstration funded internally by Lockheed Martin, is made up of two LM 50™ 12U CubeSats. While on-orbit, the system demonstrated highly-automated rendezvous and proximity operations (RPO), which enables complicated yet precise maneuvering across multi-satellite constellations. This allows on-orbit servicing coordination and upgrades at scale in any orbit. The RPO demonstration was part of Lockheed Martin's mission to validate essential maneuvering capabilities for future space upgrade and servicing missions.
Close Proximity Maneuvers Set Stage for Future Mission Capabilities
During the demonstration, one of the LM LINUSS CubeSats acted as the designated servicing vehicle, navigating a flightpath towards the second CubeSat, which represented the resident space object (RSO). As the servicing vehicle approached the RSO, on-board guidance algorithms made final real-time adjustments to complete its rendezvous operations. Its culminating success was declared when the CubeSats maneuvered in a proximity of one another that demonstrated high confidence in conducting future on-orbit servicing missions for customers.
"The LM LINUSS pathfinder is an excellent example of how Lockheed Martin is investing in innovation in the real world. Agile development, cloud-based operations, and smallsat platforms came together at speed and in orbit, where the real test of technology occurs," said Johnathon Caldwell, Lockheed Martin, vice president and general manager, Military Space. "Through the accomplishments of LM LINUSS, Lockheed Martin is pioneering how future small and medium class missions will be upgraded on-orbit, and continuing to develop critical, breakthrough technologies that keep our customers ahead of ready."
In addition to RPO, the toaster-sized CubeSats also accomplished additional technology demonstrations while on-orbit. Several of these include:
LM LINUSS could be considered the most capable pair of CubeSats in geosynchronous Earth orbit today, based on customer community feedback. The spacecraft have higher bus density, payload accommodation and on-orbit processing than any other CubeSat, which helps enable revolutionary mission capabilities in the future. Part of Lockheed Martin's LM 50 smallsat family, it is the collaborative integration of the company's mission electro-optical payload deck with a next-generation bus from Terran Orbital Corporation. LM LINUSS and other Lockheed Martin pathfinders are helping create a more sustainable future, safely adding mission life and more.
"This LM LINUSS demonstration was a success for many reasons, including the fact that our team navigated the inherent challenges of a novel technology and validated our software for future missions," said David Barnhart, a technology director at Lockheed Martin Space. "We will leverage what our team learned from LM LINUSS' design, development, and operations to continue advancing Lockheed Martin's innovative vision for on-orbit satellite servicing and upgrades."