Lockheed Martin to build threat radar to help pilots evade modern anti-aircraft missiles

July 24, 2017
HILL AIR FORCE BASE, Utah – Radar experts at Lockheed Martin Corp. are designing a mobile advanced radar system to help pilots of the F-35 joint strike fighter learn to operate safely in hostile areas guarded by modern radar-guided surface-to-air missiles.

HILL AIR FORCE BASE, Utah – Radar experts at Lockheed Martin Corp. are designing a mobile advanced radar system to help pilots of the F-35 joint strike fighter learn to operate safely in hostile areas guarded by modern radar-guided surface-to-air missiles.

Officials of the Air Force Life Cycle Management Center at Hill Air Force Base, Utah, announced a $108.3 million 10-year contract to the Lockheed Martin Missiles and Fire Control segment in Grand Prairie, Texas for the Advanced Radar Threat System Variant 2 (ARTS-V2).

The ARTS-V2 is to be a ruggedized mobile system designed to emulate radar-guided surface-to-air missile threats like the Russian-made SA-10, SA-12, and SA-20, which are built to strike at everything from low-flying drones and stealth cruise missiles to high-altitude reconnaissance airplanes and distant sensor platforms.

The SA-10 is designed to shoot down jet fighter aircraft like the F-35 and earlier-model combat jets. It has a range of nearly 50 miles and top speed approaching Mach 6. The SA-12 is for shooting down tactical ballistic missiles, and similar to the U.S. Patriot missile. The SA-20, meanwhile is an advanced development of the SA-12.

Lockheed Martin will build the ARTS-V2 to provide threat-representative radar tracking and reaction such as acquiring, tracking, and engaging several aircraft simultaneously with representative receiver, processor, and electronic counter-countermeasures.

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The system will emulate advanced anti-aircraft missile radiated power, threat signals, antenna patterns, operational modes, and threat tactics, and can send real-time radar data to the Digital Integrated Air Defense System (DIADS)-controlled threat environment at the Range Control Center (RCC). ARTS-V2 will provide multi-spectral threat representation.

The ARTS-V2 is part of the overall Advanced Radar Threat System (ARTS) project to develop and field high-fidelity threat phased array radar for live, virtual, constructive aircrew training for anti-access and area-denial environments.

ARTS will provide the advanced capabilities necessary to train aircrews in the employment of F-35 aircraft against foreign fielded live double-digit surface-to-air missile threat systems. The program consists of the strategic long-range ARTS-V1 and the tactical short-range ARTS-V2 systems. The solicitation for the ARTS-V1 system was released in January.

On Monday's contract, Lockheed Martin will build one ARTS-V2 system, and will have options to build as many as 20 additional systems. The company will do the work in Grand Prairie and Austin, Texas; Syracuse and Tallman, N.Y.; Orlando, Fla.; Palmdale, Newark, San Luis Obispo, and Northridge, Calif.; Colorado Springs, Colo.; Batavia, Ohio; Clintonville, Wis.; Huntsville, Ala.; Atlanta; Middletown, R.I.; Virginia Beach, Va.; and Scottsdale, Ariz., and should be finished by June 2027.

For more information contact Lockheed Martin Missiles and Fire Control online at www.lockheedmartin.com/us/mfc.html, or the Air Force Life Cycle Management Center at www.wpafb.af.mil/aflcmc.

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About the Author

John Keller | Editor-in-Chief

John Keller is the Editor-in-Chief, Military & Aerospace Electronics Magazine--provides extensive coverage and analysis of enabling electronics and optoelectronic technologies in military, space and commercial aviation applications. John has been a member of the Military & Aerospace Electronics staff since 1989 and chief editor since 1995.

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