The U.S. Space Force’s Space Systems Command (SSC) and Boeing [NYSE: BA] have completed a critical design review for the Protected Tactical SATCOM Prototype (PTS-P), validating Boeing’s technical maturity on the rapid-prototyping program.
Boeing’s PTS-P features an on-board processor of the U.S. military’s jam-resistant Protected Tactical Waveform (PTW), providing users in-theater, anti-jam capability with network routing that exceeds objective requirements.
Scheduled for on-orbit demonstration after a 2024 launch, the prototype payload showcases PTS-P’s improved stand-off distance performance, reduced latency and other mission-enabling capabilities that enable the warfighter in a modern battlefield. Host vehicle integration and testing will begin next year.
Boeing is leveraging its expertise in model-based systems engineering and digital engineering to design an agile, scalable and flexible solution to meet the warfighter’s ever-emerging needs. Millennium Space Systems strengthens the team with rapid prototyping and demonstrations in a fully-integrated and streamlined execution approach.
“The Space Force’s incremental demonstration approach is allowing us to bring capabilities rapidly to the warfighter while mitigating risk for future technology developments,” said Troy Dawson, Government Satellite Systems vice president at Boeing. “We’re investing across our satellite portfolio to deliver the most advanced solutions to our customers. Our scalable software-defined payload will be able to accommodate and grow to meet the needs of any mission, and it can be hosted on commercial or government platforms.”
To date, the Boeing team has completed several capability demonstrations and design reviews, including validating interoperability with government-furnished Protected Anti-Jam Tactical SATCOM (PATS) hardware and software components.
“We’re making great progress on this pacesetter program,” said Lt. Col. Ryan Rose, SSC’s Tactical SATCOM Division deputy chief. “We’ve asked all industry partners to move fast — to build, iterate, demonstrate, and improve performance, so we can deploy much faster than we typically would. This design review demonstrates we’re on track to deliver new communication capabilities to the warfighter.”