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The Northrop Grumman MQ-4C Triton is an American high-altitude long endurance unmanned aerial vehicle (UAV) under development for the United States Navy as a surveillance aircraft. Together with its associated ground control station, it is an unmanned aircraft system (UAS). Developed under the Broad Area Maritime Surveillance (BAMS) program, the system is intended to provide real-time intelligence, surveillance and reconnaissance missions (ISR) over vast ocean and coastal regions, continuous maritime surveillance, conduct search and rescue missions, and to complement the Boeing P-8 Poseidon maritime patrol aircraft.[3][4][5]

MQ-4C Triton
An MQ-4C conducting an upgrade test flight
Role Maritime unmanned surveillance and reconnaissance aerial vehicle and patrol aircraft
National origin United States
Manufacturer Northrop Grumman
First flight 22 May 2013
Introduction May 2018[1]
Status Limited service[1]
Primary users United States Navy
Royal Australian Air Force
Number built 68 (planned) + 2 prototypes[2]
Developed from Northrop Grumman RQ-4 Global Hawk

Triton builds on elements of the RQ-4 Global Hawk; changes include reinforcements to the air frame and wing, de-icing systems, and lightning protection systems. These capabilities allow the aircraft to descend through cloud layers to gain a closer view of ships and other targets at sea when needed. The sensor suites allow ships to be tracked by gathering information on their speed, location, and classification.[6]

The MQ-4C System Development and Demonstration (SDD) aircraft was delivered in 2012 and the MQ-4C was expected to be operational by late 2015[7][8] with a total of 67 aircraft to be procured. Initial Operational Capability (IOC) for the MQ-4C was achieved in 2018[1] with Full Operating Capability (FOC) planned in 2023.[9]


Development



Key features


MQ-4Cs at Palmdale
MQ-4Cs at Palmdale

Contract competition


The competitors for the Broad Area Maritime Surveillance (BAMS) contract included:[11]

The BAMS UAS was acquired for the U.S. Navy as a Department of Defense Acquisition Category (ACAT) 1D program[14] and on 22 April 2008, Northrop Grumman received the BAMS contract worth $1.16 billion.[15] Lockheed Martin filed a formal protest with the U.S. Government Accountability Office (GAO) two weeks later.[16] On 11 August 2008 the GAO ruled to uphold the Navy's selection of Northrop Grumman.[17] In September 2010, the BAMS aircraft was designated the MQ-4C.[18]


Initial development


Official unveiling took place on 14 June 2012 at Palmdale, California. During the event, it was announced that the Navy had approved the name "Triton" for the aircraft. The first flight of the MQ-4C by aircraft Bureau Number (BuNo) 168457 occurred 22 May 2013, followed by subsequent test flights at Edwards AFB, California and NAS Patuxent River, Maryland. Initial Operational Capability (IOC) was planned for December 2015[19] but slipped to 2017.[5]

Northrop Grumman unveiled the MQ-4C Triton in Palmdale, California in June 2012
Northrop Grumman unveiled the MQ-4C Triton in Palmdale, California in June 2012

The U.S. Navy plans a fleet of 68 MQ-4Cs and 117 P-8As to replace the aging P-3C Orion force.[20] Approximately 40 MQ-4Cs will be based at various sites, predominantly home stations or overseas deployment sites for Navy P-8A and P-3C aircraft. This includes an unspecified location in Hawaii (most likely MCAS Kaneohe Bay); NAS Jacksonville, Florida; Kadena Air Base, Japan; NAS Point Mugu, California, and NAS Sigonella, Italy.[21][22] The Air Force Times reported on 14 September 2012, that the system will also be stationed at Andersen Air Force Base, Guam.[23]

In August 2013, the Navy paused the development of the "sense and avoid" radar system that would enable the MQ-4C to avoid other aircraft. The Triton would have been the first unmanned aircraft to be fitted with such a system, but the system was behind schedule and over budget. The radar system remains a requirement in the program, but budgetary and technology pressures have forced the Navy to defer integrating it onto the aircraft. The Navy and Northrop Grumman are working to determine when the sense-and-avoid system can be included into the production line.[24]

The Navy restarted the competition for a sense-and-avoid radar for the Triton in November 2014 with less ambitious requirements, including the ability to use data from ground radars as it approaches an airport, and a modular and scalable design that can be incrementally improved to meet evolving future operational and air traffic management requirements.[25]

On 6 September 2013, the Navy awarded Northrop Grumman a $9.98 million contract for maintenance and support of the MQ-4C SDD aircraft to enable it to fly 15 missions per month, an increase from 9 per month as previously planned, with senior Navy commanders wanting to keep closer surveillance of activities in the ocean and coastal regions of the Middle East.[26]

The Navy began considering in September 2014 cutting the number of Tritons it plans to buy. The intention has been to have 20 MQ-4C aircraft operational at any one time, with the rest of the 68-plane order force being spares. Due to the improved reliability of the aircraft, budget pressures may require the Navy to trim the numbers of aircraft it will order.[27]

In September 2015, the DoD Inspector General found the 70-aircraft force requirement justified, based on available attrition rate estimates of four per 100,000 hours. The Navy intends to begin operation of one operating location every year starting in 2018 until there are five. Four Tritons will be operational at each base to maintain continuous flight, with the rest produced for testing, training, and loss replacement; the entire order is to be completed in 2032.[9]


International sales



Australia

Australia has considered the MQ-4, both as a military platform and as customs enforcement platform; senior customs officials have doubted the effectiveness of the planned seven MQ-4C to detect small boats in the country's northern waters, especially through cloud cover.[28] In 2013, Air Marshall Geoff Brown, head of the Royal Australian Air Force, stated that Australia was considering purchasing more manned P-8 Poseidon aircraft and reducing the number of MQ-4Cs planned to be bought for the RAAF.[29]

On 16 February 2014, it was reported that the Australian government would seek the purchase of seven MQ-4C Tritons; in addition to locating ships and aircraft, it would also be used to detect seaborne asylum seekers. Alongside the P-8, the MQ-4 is to replace the elderly P-3 Orion fleet.[30]

On 13 March 2014, Prime Minister Tony Abbott announced Australia's intention to buy the MQ-4C Triton and become its first foreign customer. The announcement was made at RAAF Base Edinburgh, the base of the country's fleet of eighteen AP-3C Orion aircraft it will replace. The Triton buy is part of the Australian Defence Force's Project Air 7000 two-phase Orion replacement program; Phase 1B entails procuring the Triton, and Phase 2B is the acquisition of eight-to-twelve manned P-8A Poseidons in 2017. RAAF Tritons and Poseidons will be used in a similar complementary fashion as with U.S. Navy operation, where the MQ-4C performs high-altitude broad area surveillance missions, allowing the P-8A to be more dedicated to anti-submarine and anti-surface warfare, search and rescue response, and electronic intelligence missions.

The Australian Government confirmed in its 2016 Defence White Paper that the Royal Australian Air Force was to acquire seven MQ-4C Triton aircraft as part of its "Intelligence, Surveillance and Reconnaissance capability stream".[31]

On 26 June 2018, Australian Prime Minister Malcolm Turnbull announced the purchase of the first of six MQ-4C Tritons with consideration being given to purchase a seventh.[32]


India

Northrop Grumman has also proposed the MQ-4C to India; the Indian Navy have considered the UAV in a complementary role to the twelve Boeing P-8I Poseidon maritime patrol aircraft it has on order.[33]


Rumored sales

On 20 July 2014 there was a rumor that the UK planned to purchase a minimum eight MQ-4Cs to replace the cancelled BAE Systems Nimrod MRA4 after defence chiefs stated that the UK's nuclear deterrent Trident may have been compromised to the Russians.[34][35] In the Strategic Defence and Security Review 2015 there was no such mention of a buy and that report is negated.


Cancelled Orders



Germany

In January 2015, the German Luftwaffe began considering the Triton to fill their signals intelligence (SIGINT) needs as a continuation of the cancelled Global Hawk-based EuroHawk program. After the retirement of the German Navy's five Br.1150 Atlantique aircraft in 2010, the EuroHawk was intended to fill the SIGINT gap, but was cancelled in May 2013 after spending €600 million ($750 million) from concerns of its ability to satisfy airworthiness regulations to permit flight over civil airspace in Europe.[36]

With about half of the investment on the electronic intelligence (ELINT) and communications intelligence (COMINT) sensors, Germany is trying to get some form of the program into service. Using the Triton would ease integration by keeping the sensors in the same place, gondolas hung under the wings, which limited attempts to put them on other airframes due to reception problems with nearby engine placement. With icing and lightning-strike protection already included, the MQ-4C would have a better chance of achieving safety certification to fly over inhabited areas of Europe that previously ended the EuroHawk.[36] The German Defence Ministry confirmed in March 2017 that it had decided to buy the MQ-4C to replace the EuroHawk program, with deliveries occurring after 2025.[37]

The German government has decided to purchase several modified Bombardier Global 6000 aircraft modified for the role instead of the Triton after officials became convinced that the Global Hawk derivatives would be unable to meet the safety standards needed for flying through European airspace by 2025 and saw their hopes dashed as Italy recently issued a military-type certificate for a sister drone — NATO’s Alliance Ground Surveillance fleet of Global Hawks — that prescribes tight restrictions on flights over the European continent. Manned aircraft like the envisioned Global 6000 are allowed to routinely fly alongside civilian traffic.[38]


Design


The MQ-4C can remain aloft more than 30 hours at 55,000 ft (17,000 m) at speeds of up to 330 knots (380 mph; 610 km/h). Its surveillance sensor is the AN/ZPY-3 Multi-Function Active Sensor (MFAS) X-band AESA radar with a 360-degree field-of-regard, capable of surveying 2,700,000 sq mi (7,000,000 km2) of sea (as well as shoreline or land) in a 24-hour period, or 2,000 sq mi (5,200 km2) in a single sweep. Using the radar in inverse synthetic aperture mode, the MFAS can identify a target in all weather conditions.[39]

It can take high definition radar pictures, then use the advanced image and radar return recognition software of the onboard Automatic Identification System (AIS) to classify it without the intervention of aircraft operators. The Triton is semi-autonomous to conserve manpower, so operators only need to choose an operating area for the aircraft, and set speed, altitude, and objective rather than operating controls.[39]

One thing the Triton was designed to do (that the Global Hawk cannot) is rapidly descend to lower altitudes. It is built with a more robust lower fuselage to withstand hail, bird, and lightning strikes. It is equipped with anti-icing systems on its wings. At low altitude, the Triton would use its Raytheon MTS-B multi-spectral EO/IR sensor (also used on the MQ-9 Reaper) which is equipped with additional laser designator, pointer, and range finding abilities capable of automatically tracking what the MFAS detects. The optical suite can stream live video to ground forces.[39]

The Triton is equipped with a modular electronic support measures (ESM) suite, similar to the one used on the Lockheed EP-3, to passively detect and classify faint radar signals. It is able to triangulate and geo-locate these signals, allowing mission planners to create an enemy "electronic order of battle" profile, or keep the aircraft and others outside the range of enemy radars and air defenses. Detecting and locating the source of radar signals would also be useful for locating military vessels at sea for potential targeting.[39] Low- and high-band signals receivers to give it a multi-INT (SIGINT) capability will be fielded in 2021[40] as part of an integrated functional capability (IFC) 4 configuration; further changes are planned for IFC 5 upgrade in 2024.[41]

Another aspect of the MQ-4C is its ability to act as a network relay and data fusion center, able to receive and transmit messages from around a theater of operations between various sources not within line-of-sight of each other. It can take what ships, planes, and land sensors are seeing and broadcasting through various data-links and fuse that information together to create a common "picture" of the battlespace, which it can rebroadcast. This capability greatly increases interoperability, situational awareness, targeting efficiency, and sensor picture clarity, while providing an alternative to satellite-based communications systems.[39]


Operational history



Flight testing


The MQ-4C Triton performed its first flight on 22 May 2013 from United States Air Force Plant 42 / Palmdale Regional Airport, California. The flight lasted 1 hour 20 minutes and the aircraft reached an altitude of 20,000 ft.[42][43]

MQ-4C Triton completes first flight

On 6 January 2014, Northrop Grumman announced that the MQ-4C had completed 9 test flights with 46 hours of flight time. Half of its envelope expansion testing, which included evaluating the aircraft at different altitudes, speeds, and weights, had been completed. Some flights lasted over 9 hours and reached 50,000 ft. A second Triton aircraft was to fly by March or April 2014.[44] Initial envelope expansion testing was completed in March 2014 through 13 flights, 81 flight hours, and reaching altitudes of 59,900 ft.[45]

On 18 September 2014, the Triton successfully conducted an 11-hour cross-country flight from Northrop Grumman's Palmdale, California facility to Naval Air Station Patuxent River in Maryland. The cross-country flight test had been previously postponed twice due to bad weather. The aircraft flew a pre-approved instrument route along the southern U.S. border, crossing the Gulf of Mexico and Florida, then was directed north along the Atlantic coast and up the Chesapeake Bay, a distance of 3,290 nmi (3,790 mi; 6,090 km) at 50,000 ft (15,000 m) to avoid commercial air traffic.[46]

A test fleet of three Tritons completed 15 flights demonstrating speed and altitude capabilities prior to the transcontinental mission. With the completion of the cross-country flight, the MQ-4C program transitions from initial safety flight testing to validating its ability to perform operational missions over the ocean. Operations from Patuxent River in the coming weeks will test the aircraft's sensors, communications, interoperability, and expanded envelope flight coverage. The three test Tritons are scheduled to fly a total of 2,000 hours before reaching initial operating capability.[46]

The second MQ-4C Triton model flew on 16 October 2014, 17 months after the first model's first flight. It is being prepped to perform the cross-country flight later in the month that the first aircraft performed the previous month. A third model is also being prepared to start flights; the third was planned to be funded by the Navy but was lost to budget cuts, so Northrop Grumman decided to self-fund production of the third prototype.[47]


Fleet operational evaluation and introduction


On 7 February 2013, the U.S. Navy announced that it would initiate the Unmanned Patrol Squadron Nineteen (VUP-19) at NAS Jacksonville, Florida on 1 October 2013, to eventually operate the MQ-4C as the Navy's first Triton squadron.[48] A detachment of VUP-19 will also be established at NAS Point Mugu, California. VUP-19 will fall under the administrative control of Commander, Patrol and Reconnaissance Wing ELEVEN (CPRW-11) at NAS Jacksonville, where an MQ-4C mission control facility is also under construction, and will initially operate the Triton on intelligence, surveillance and reconnaissance (ISR) missions for the U.S. 5th Fleet in the Southwest Asia/Middle East/East Africa region, the U.S. 6th Fleet in the Mediterranean and eastern Atlantic, the U.S. 7th Fleet in the Western Pacific and Indian Ocean, and U.S. Fleet Forces Command in western Atlantic operations. In 2014, the Navy will activate a second Triton squadron, VUP-11, to take over operations in the Pacific in support of U.S. 7th Fleet and share U.S. 5th Fleet operations with VUP-19.[49]

On 17 November 2015, the MQ-4C began a two-month operational assessment that will determine Milestone C approval and the start of low-rate initial production. In February 2016 the U.S. Navy confirmed that the MQ-4C had completed Operational Assessment, putting the Triton in line to achieve a Milestone C decision in spring 2016, leading to low rate production. An integrated test team made up of Navy personnel from Air Test and Evaluation Sqdns. VX-1 and VX-20, Unmanned Patrol Sqdn., VUP-19 and Northrop Grumman demonstrated Triton's reliability over approximately sixty flight hours.[50]

The Navy's fiscal 2017 budget request includes 19 MQ-4 Tritons through fiscal 2021, with first deployment to the Pacific in fiscal 2017.[50] The tests evaluated the MQ-4C's key sensors – an active electronically scanned array radar, an electro-optic/infrared camera and a hydrocarbon detector – over different altitudes and ranges, analysing the "system’s ability to classify targets and disseminate critical data", according to Northrop.[51]

In 2013, the U.S. Navy noted quality control issues in the MQ-4C's wings, which Northrop Grumman stated to have fixed by 2016.[52]

On 12 December 2019, the U.S. Navy stated that one of its RQ-4A Global Hawk aircraft had been damaged during a takeoff in the Middle East in November 2019. The craft, which cost $123 million in 2015, was estimated by USNI to be valued at $180 million by 2019.[53]

On 26 January 2020, VUP-19 deployed the MQ-4C for the first time, with two aircraft sent to Anderson AFB in Guam.[54][55]


Iranian shoot down of drone

See also: June 2019 Gulf of Oman incident and 2019 Iranian shoot-down of American drone

On 20 June 2019, Iran's Islamic Revolutionary Guard Corps shot down an RQ-4A drone in the Strait of Hormuz near Kuhmobarak in Iran's southern province of Hormozgan. Iran claimed it was in their airspace, while the U.S. claimed it was in international airspace. Fox News cited an alleged anonymous U.S. official as a source that the drone had been an MQ-4C Triton, but the U.S. Central Command later confirmed it was a (BAMS-D) a prototype version of the RQ-4A drone, developed during the development of the MQ-4C. In total, four of these prototype aircraft were built, and they had been assigned to the Navy's Broad Area Maritime Surveillance (BAMS) program.[56][57]


Operators


 United States
 Australia

Specifications (MQ-4C)


Data from [7]

General characteristics

Performance


See also


Aircraft of comparable role, configuration, and era

Related lists


References


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На других языках

- [en] Northrop Grumman MQ-4C Triton

[fr] Northrop Grumman MQ-4C Triton

Le Northrop Grumman MQ-4C Triton, est un drone de surveillance maritime dérivé du RQ-4 Global Hawk.

[ru] Northrop Grumman MQ-4C Triton

Northrop Grumman MQ-4C Triton — разведывательный БПЛА большой дальности и высоты полета ВМФ США. Разработанный в рамках программы BAMS (англ. Broad Area Maritime Surveillance — Наблюдение за Широкой Морской Областью), этот аппарат должен предоставлять в реальном времени разведывательную информацию об обширных океанских и прибрежных областях, вести непрерывное наблюдение за поверхностью, выполнять задачи поиска и спасения, и дополнять возможности противолодочного самолёта Boeing P-8 Poseidon[2][3][4]. MQ-4C разработан Northrop Grumman на основе другого БПЛА компании, RQ-4 Global Hawk, основные изменения включают усиленные конструкции планера, антиобледенительную систему и защиту от ударов молний; предполагается, что это позволит беспилотному разведчику при необходимости опускаться сквозь слои облачности для более близкого наблюдения за целями на поверхности воды. Системы сбора информации, установленные на БПЛА, позволяют получать сведения о типе, расположении, скорости и направлении движения кораблей.[5]


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