General Atomics Electromagnetic Systems (GA-EMS) and Kepler Communications US successfully demonstrated bi-directional air-to-space optical communications between GA-EMSโ Optical Communication Terminal (OCT) on an aircraft and a Space Development Agency (SDA)-compatible Kepler satellite in low Earth orbit. This achievement is a major milestone for SDA’s Proliferated Warfighter Space Architecture, proving the capability of secure, high-data-rate connectivity in complex environments. The demonstration validated multi-vendor interoperability and marks progress in space-airborne communication technologies, with future applications for military and commercial use. GA-EMS plans further developments, including OCT systems for upcoming LEO demonstrations in 2026. Read the full press release below:
Source: General Atomics
General Atomics Electromagnetic Systems (GA-EMS) and Kepler Communications US, Inc. announce the successful demonstration of bi-directional air-to-space optical communications between the GA-EMS Optical Communication Terminal (OCT) mounted on an aircraft and a Space Development Agency (SDA) Tranche 0-compatible Kepler satellite in low Earth orbit (LEO). The demonstration marks a milestone in advancing SDAโs Proliferated Warfighter Space Architecture, proving the ability to establish secure, high-data-rate connectivity between airborne and space-based assets in challenging operational environments.
โThis successful space-airborne communication demonstration represents a breakthrough improvement in building a resilient space architecture. Achieving multi-vendor interoperability validates SDAโs leadership in the optical communication arena,” said Gurpartap โGPโ Sandhoo, SDA deputy director. “We are grateful for industryโs rapid acceptance of the SDA OCT Standard and their drive to innovateโpushing the boundaries of what is possible for the warfighter today and into the future.โ
โOur team achieved a proof-of-concept milestone,โ said Scott Forney, president of GA-EMS. โThe airborne OCT completed pointing, acquisition, tracking, and lock with the Tranche 0-compatible satellite, then transferred data packets to validate uplink and downlink capability. Our OCT is designed to close a communications gap, enabling secure, robust data transfers to support tactical and operational missions.โ
GA-EMS designed its OCTs to scale and adapt for multi-domain communications across space, air, land, and sea platforms, as well as across various orbital regimes. GA-EMS mounted its OCT on a 12-inch Laser Airborne Communication turret (LAC-12) developed by General Atomics Aeronautical Systems, Inc. (GA-ASI) Precision Pointing Group for the test.
โThis demonstration not just achieved the milestone for SDA-compatible communications across the air and space domains, but very importantly proved the robustness of the SDA standard for communications between OCTโs built by two different companies,โ said Gregg Burgess, vice president of GA-EMSโ Space Systems division. โUnder a separate SDA contract, GA-EMS designed and built two OCT systems that will fly on two GA-75 spacecraft to support future LEO airborne-to-space demonstrations for Tranche 1. Those spacecraft launch in 2026.โ
As part of the companyโs expanding SDA-compatible LEO constellation, Keplerโs Pathfinder satellites are designed to demonstrate high-capacity data services and validate advanced communication technologies under mission-critical conditionsโbridging the gap between space, air, and ground networks for defense and commercial applications.
โBy pairing Keplerโs on-orbit optical capabilities with GA-EMSโ OCT, weโve shown whatโs possible when space and aviation systems work seamlessly together,โ said Robert Conrad, president of Kepler US. โThis achievement builds on our milestone of establishing bi-directional space-to-ground communications with Keplerโs SDA Tranche 0-compatible satellites and reinforces how commercial space operators will be partners in delivering secure, high-throughput connectivity for the defense community and the broader commercial sector.โ
