Navy orders three MQ-4C Triton long-range maritime surveillance UAVs
U.S. Navy aviation surveillance experts are ordering three MQ-4C Triton long-range and long-endurance unmanned aerial vehicles (UAVs) for global maritime surveillance for surface ships and submarines.
PATUXENT RIVER NAS, Md. - U.S. Navy aviation surveillance experts are ordering three MQ-4C Triton long-range and long-endurance unmanned aerial vehicles (UAVs) for global maritime surveillance for surface ships and submarines.
Officials of the Naval Air Systems Command at Patuxent River Naval Air Station, Md., announced a $303.9 million order to the Northrop Grumman Aerospace Systems sector in San Diego for the three Triton low-rate initial production UAVs as part of the second lot of Triton production. This order includes one Triton main operation control station, one forward operation control station, trade studies, and tooling.
Northrop Grumman is developing the MQ-4C Triton, also called the Broad Area Maritime Surveillance (BAMS) UAV, to fly maritime surveillance missions as long as 24 hours at altitudes of more than 10 miles to enable coverage out to 2,000 nautical miles. The UAV's sensors can detect and classify different types of ships automatically.
|The Navy's growing MQ-4C Triton unmanned aircraft fleet will handle long-range maritime surveillance for surface ships, submarines, and other threats.|
The Triton is to be a crucial component of the Navy's 21st century strategy for conducting surveillance of surface ship and submarine traffic in the vast Pacific and other oceans around the globe. The Triton UAV will work together with the Navy's P-8A Poseidon manned maritime patrol aircraft.
The Triton's maritime search radar is called the Multi-Function Active Sensor (MFAS), and will provide the UAV and its operators with a 360-degree view of a large geographic area while providing all-weather coverage for detecting, classifying, tracking, and identifying points of interest. MFAS is separate from the Triton's air-to-air radar. The MFAS radar first flew on the Triton during testing in April 2015.
Along with the air-to-air and MFAS radar systems, the MQ-4C will carry an electro-optical/infrared (EO/IR) sensor that will provide still imagery and full-motion video of potential threats; an electronic support measures package to identify and geolocate radar threat signals; and an Automatic Identification System (AIS) that will detect and track vessels equipped with AIS responders.
The MQ-4C Triton is designed to provide combat information to military authorities like the expeditionary strike group, carrier strike group, and the joint forces maritime component commander. The Triton air vehicle is based on the U.S. Air Force RQ-4B Global Hawk, while its sensors are based on components and systems already fielded in the U.S. military. The large unmanned aircraft provides intelligence for large ocean areas to maintain the common operational and tactical picture of the maritime battle space. The Triton feeds intelligence, surveillance, and reconnaissance (ISR) data to the Global Information Grid, and can work alone or together with other aircraft and surface ships.
The MQ-4C Triton's ability to perform persistent ISR within a practical range of 2,000 nautical miles enables the P-8A aircraft to focus on anti-surface ship warfare, anti-submarine warfare (ASW), and multi-intelligence. It can fly as far as 8,200 nautical miles without refueling.
Triton aircraft and support facilities are being based domestically at Point Mugu Naval Air Station near Ventura, Calif., and at Jacksonville Naval Air Station, Fla. Triton UAVs also will be forward-deployed to Kadena Air Base, Japan; Andersen Air Force Base, Guam; Sigonella Naval Air Station, Italy; as well as at installations on the islands of Hawaii and Diego Garcia.
On this contract Northrop Grumman will do the work in San Diego, Palmdale, and Santa Clarita, Calif.; Red Oak, Texas; Baltimore; Salt Lake City; Bridgeport, W.Va.; Indianapolis; Moss Point, Miss.; Montreal; Vandalia, Ohio; Medford, New York; and other U.S. locations, and should be finished by April 2021.
FOR MORE INFORMATION visit Northrop Grumman Aerospace Systems online at www.northropgrumman.com.