U.S. Army Orders Next-Generation Missile Warning Systems

August 12, 2020

BAE Systems received $179 million in total awards from the U.S. Army as part of the Limited Interim Missile Warning System (LIMWS) Quick Reaction Capability (QRC) program. This award includes orders for the first two production lots and funding to enable fielding of the next-generation Missile Warning System (MWS). The MWS provides aircrews with advanced threat detection capabilities, improving survivability and mission effectiveness in contested environments.

The foundation of LIMWS is BAE Systems’ 2-Color Advanced Warning System (2CAWS) processor which will allow the Army to outpace the threat. 2CAWS builds upon BAE Systems’ experience in fielding systems for the complex rotary-wing environment. Optimized for size, weight, and power, 2CAWS features an open system processor, two-color infrared sensors for increased range, and a fiber optic A-kit for faster data transmission. The system processor serves as the high-bandwidth digital backbone of the system and houses advanced machine learning missile warning algorithms specifically designed for complex, high-clutter environments and rapid threat updates. LIMWS is compatible with existing U.S. Army aircraft survivability equipment, including pilot interfaces and countermeasure systems, allowing for accelerated installation and integration timelines.

The awards will continue the fielding of LIMWS systems in support of critical U.S. Army requirements. It follows a December 2017 development contract and an initial production order in May 2018. Work on the LIMWS program will be conducted in BAE Systems’ facilities in Merrimack, New Hampshire, and Huntsville, Alabama, where the company is building a new state-of-the-art facility.

2CAWS builds on the company’s experience delivering combat-proven aircraft survivability equipment to the U.S. and allied armed forces, and its experience executing critical QRC programs. The company’s Common Missile Warning System is currently fielded on thousands of U.S. Army platforms and has saved dozens of aircraft and their crews since it was first fielded in 2005.

Source