An MQ-9B remotely piloted aircraft successfully communicated with SES satellites in medium and geostationary Earth orbits.
General Atomics Aeronautical Systems (GA-ASI), SES and Hughes Network Systems have worked together to demonstrate multi-orbit satellite communications (SATCOM) using a GA-ASI-supplied MQ-9B SkyGuardian Remotely Piloted Aircraft (RPA).
The demonstration took place at GA-ASI’s Desert Horizon flight operations facility in El Mirage, Calif. The higher data rate SATCOM transmission featured SES’s multi-orbit satellite communications service leveraging high-throughput, low-latency Medium Earth Orbit (MEO), and Geostationary (GEO) fleet, and was powered by a Hughes HM series software-defined modem and Hughes Resource Management System.
GA-ASI Senior Vice President for MQ-9 Systems, Fred Darlington, said: “This demonstration proves the importance of next-generation SATCOM for operators of our aircraft. As we expand into new and more intricate payloads for our RPA, we’ll require higher data rates that provide the bandwidth, security and robustness to operate our sensors.”
The demonstration used SES’s O3b MEO system that provides fiber-like carrier-grade performance, scalability, and resilience that set the path to widely leveraging open architectures and achieving network sovereignty. SES’s multi-orbit fleet that delivers global coverage, high-throughput, low-latency and increased levels of security, was leveraged to show how unmanned aircraft, such as the GA-ASI MQ-9 series, can maintain high-workload, mission-critical connectivity and resiliency, even in contested environments. During the demonstration, the connectivity service seamlessly roamed between O3b MEO and AMC-15 GEO satellites. Later this year, SES will be launching its second-generation MEO system, O3b mPOWER, to further support governments through unprecedented performance, waveform-agnostic service and enabling network sovereignty.
Will Tong, Vice President of Strategic Government Initiatives and head of the Aero ISR market at SES, added: “We are very proud of our partnership developed over the years between SES, GA-ASI and their government customers. Innovation is the key in supporting transformational changes in ISR services, and this demonstration is one more example of how the industry can work together to bring something special to the market. Together with GA-ASI, we were able to prove out new levels of secure, flexible and high-performance multi-orbit services for ISR, with 10x performance on a significantly smaller form factor, with increased resiliency and security for the end users.”
Integrated onto the MQ-9B, the milspec Hughes HM System modem (HM400) powered the MEO and GEO SATCOM with Low-Probability of Intercept/Low Probability of Detection (LPI/LPD) modes for the resiliency necessary in congested and contested environments. Together with the Hughes Resource Management System, the HM400 automatically optimised and switched satellite signals smoothly and within seconds, demonstrating a near real-time capability that enhances the military’s Primary Alternative Contingency Emergency (PACE) planning.
Rick Lober, Vice President and General Manager, Hughes Defense, stated: “Working together with General Atomics for many years, we are pleased to support the MQ-9B program with the commercially based Hughes HM400 modem integrated as the standard for real-time communications for beyond-line-of-sight mission opportunities. Combined with the Hughes Resource Management System, the frequency-agnostic, open architecture HM System helps GA-ASI meet their military customer’s requirements for uninterrupted, high data rate, multi-orbit SATCOM, ensuring secure information accessibility for the right people at the right time.”