This satellite is part of the Space Force's dual-satellite GEO component within its broader multi-orbit, multi-layer missile warning and tracking system. This architecture aims to defend the U.S. and its allies against a growing array of threats, including ballistic missiles, hypersonic weapons, and other emerging technologies.
Designed to operate in the highly contested and congested space domain, the Next-Gen OPIR satellites will provide resilient missile warning and tracking capabilities. Positioned approximately 22,000 miles above Earth, the GEO satellites will deliver improved global coverage and enhanced sensing technologies. The system will complement the Space Systems Command's Medium Earth Orbit prototypes and the Space Development Agency's Low Earth Orbit Tracking Layer satellites to create a robust network capable of countering evolving threats.
"With its persistent, around-the-clock, watchman-like surveillance, Next-Gen OPIR GEO will add strength, reliability and resiliency to the Space Force's future missile warning, tracking and defense architecture," said Mike Corriea, Lockheed Martin Space's vice president for Missile Warning programs.
The recent achievement in the satellite's production highlights the engineering precision and design expertise involved. The satellite integrates two key components: Lockheed Martin's LM 2100 bus, featuring enhanced resiliency technologies, and a Raytheon-developed advanced missile warning sensor payload. With system-level testing now underway, the satellite will undergo environmental testing as it moves closer to its scheduled launch in 2025.
Related Links
Missile Defense Lockheed Martin
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