Lockheed Martin, in collaboration with Intel accomplished an industry first by successfully integrating a 5G Core and Open Radio Access Network (O-RAN) into Lockheed Martin's 5G.MIL(R) Hybrid Base Station (HBS), providing decisive information dominance to operators across domains. By integrating Intel's FlexRAN reference architecture and Intel Xeon Scalable processors into a 3U tactical chassis, Lockheed Martin implemented open system communications gateway capabilities on flyable hardware using established modular open system architecture and 5G commercial standards. Working within a family of common open architectures ensures products and solutions are drop-in ready with no vendor lock.

Dive Deeper By implementing the HBS within a 3U/VPX rugged form factor, Lockheed Martin demonstrated over-the-air 5G and tactical network connectivity in a laboratory environment that is capable of transitioning to military air vehicles. While most applications of 5G base station technology are data center centric, this demonstration hosted 5G O-RAN technology on ruggedized computers suitable for fighter and other aircraft, paving the way for the team to fly on any number of military platforms during upcoming crewed-uncrewed distributed teaming flight tests. The demonstration also leveraged 3(rd) Gen Intel Xeon Scalable processors, which are designed to provide the greatest performance per watt.

These processors enable a low Size, Weight and Power (SWaP) solution required by platforms operating at the tactical edge, significantly reducing the amount of hardware required to perform the same functionality. What's Next? This 3U/VPX HBS integration success positions the team for crewed-uncrewed flight testing next year as part of Lockheed Martin's Project Carrera.

Additionally, Lockheed Martin and Intel continue to explore how to best bridge current applications of 5G commercial stacks with military datalinks to bring the most capable, resilient communications solutions to the Department of Defense. This includes next generation software defined radios capable of commercial 5G, as well as future waveform implementations to meet the objectives of crewed-uncrewed teaming. These advancements pave the way for operators to have greater connectivity, faster and more reliable networks, and enhanced interoperability in support of Joint All Domain Operations.