General Atomics Electromagnetic Systems (GA-EMS) has announced that Dr. David Robie, Senior Director of Space Systems at GA-EMS, and Dr. Aaron Freeman, Manager of Optical Engineering at GA-EMS, will be presenting the company’s latest innovations in Optical Intersatellite Link (OISL) and Infrared (IR) payloads for smallsats at the virtual Advanced Maui Optical and Space Surveillance Technologies (AMOS) conference, September 16.
GA-EMS is partnered with the Space Development Agency (SDA) to conduct a series of on-orbit experiments to demonstrate the first OISL communication between micro-satellites. Currently, GA-EMS is assembling, integrating and testing two 12U CubeSat spacecraft at their facilities in San Diego, California, and Huntsville, Alabama, each of which will host a GA-EMS LCT and IR payload for use during the SDA funded study. An anticipated launch date is scheduled for March 2021.
“For several years, GA-EMS has been leading the way in developing OISL technology that will fundamentally advance space-based communications,” said Scott Forney, President of GA-EMS. “Our series of laser communication terminals (LCT) can significantly increase satellite crosslink data transfer rates and downlink data rates. GA-EMS has continued to gain momentum in the space community, and we are excited to present the significant technology advancements we’ve made in the area of satellite communications and small, capable IR payloads to those attending the virtual AMOS conference.”
He then added, “Proliferated Low Earth Orbit (LEO) constellations of small satellites hosting low cost, high-performance payloads and sharing data via OISL will provide the foundation of future, resilient, affordable space architectures delivering critical space-based services for national security and commercial endeavors. Supported by our legacy in small satellite development, flight experience, and hosted payload solutions, GA-EMS looks forward to maturing affordable, modular, compact LCT and IR-imaging payload technology that will allow our customers increased communication capabilities without necessitating extensive redesign and qualification.”