The Dassault LOGIDUC – sometimes spelled Logiduc in French and LogiDuc in English – ( Logi que de D éveloppement d' UC AV , French for "Unmanned Combat Aerial Vehicle development solution") was an autonomous industrial program launched in 1999 by the French aircraft manufacturer Dassault Aviation in view to develop its UAV design capacities. This French programme eventually led to the creation of the Dassault-Sagem Tactical UAV company and to the European "combat drone" project nEUROn .
101-589: The LOGIDUC program consisted of a series of three stealth aerial vehicles, from scale 1/100 to 1/1, in view to collect data required by the production of a fighter-sized stealth UCLAV type supporting the Dassault Rafale in the 2010s and to design autonomous stealth fighters primary used by the French Air Force circa 2025. The two first vehicles, AVE-D and AVE-C , are scale model 1/100 (50kg) and 1/10 (500kg) stealth "tactical drones" (UAV), while
202-403: A hands-on-throttle-and-stick (HOTAS)-compatible configuration, with a right-handed side-stick controller and a left-handed throttle. The seat is inclined rearwards at an angle of 29° to improve g-force tolerance during manoeuvring and to provide a less restricted external pilot view. Great emphasis has been placed on pilot workload minimisation across all operations. Among the features of
303-491: A technology demonstrator that first flew in July 1986 as part of an eight-year flight-test programme, paving the way for approval of the project. The Rafale is distinct from other European fighters of its era in that it is almost entirely built by one country, involving most of France's major defence contractors , such as Dassault , Thales and Safran . Many of the aircraft's avionics and features, such as direct voice input ,
404-587: A built-in ladder, carrier-based microwave landing system , and the new fin-tip Telemir system for syncing the inertial navigation system to external equipment. Altogether, the naval modifications of the Rafale M increase its weight by 500 kilograms (1,100 lb) compared to other variants. The Rafale M retains about 95 percent commonality with Air Force variants including, although unusual for carrier-based aircraft, being unable to fold its multi-spar wings to reduce storage space. The size constraints were offset by
505-446: A central collimated display. These displays have been strategically placed to minimise pilot distraction from the external environment. Some displays feature a touch interface for ease of human–computer interaction (HCI). A head-mounted display (HMD) remains to be integrated to take full advantage of its MICA missiles. The cockpit is fully compatible with night vision goggles (NVG). The primary flight controls are arranged in
606-421: A common request for proposal. In 1975, the country's Ministry of Aviation initiated studies for a new aircraft to complement the upcoming and smaller Dassault Mirage 2000 , with each aircraft optimized for differing roles. The Rafale aircraft development programme was the end product of efforts by various European countries for a common fighter aircraft. In 1979, Dassault-Breguet (later Dassault Aviation) joined
707-501: A joint venture between Thales and MBDA . Various methods of detection, jamming , and decoying have been incorporated, and the system has been designed to be highly reprogrammable for addressing new threats and incorporating additional sub-systems in the future. Operations over Libya were greatly assisted by SPECTRA, allowing Rafales to perform missions independently from the support of dedicated Suppression of Enemy Air Defences (SEAD) platforms. The Rafale's ground attack capability
808-567: A larger payload as compared to during VTOL use, while avoiding the complexity of a catapult. The best known example is the Hawker Siddeley Harrier Jump Jet, despite being capable of VTOL take-offs, is usually operated as a STOVL aircraft to increase its fuel and weapons load. STOBAR is a system used for the launch and recovery of aircraft from the deck of an aircraft carrier , combining elements of both STOVL and CATOBAR. Aircraft launch under their own power using
909-400: A lead role, with the commensurate technical and industrial primacy, whereas the other countries were accepting of a more egalitarian programme structure. There was little common ground between France and the other members of this project, but by 1983, the five countries had agreed on a European Staff Target for a future fighter. Nevertheless, differences persisted, and so France withdrew from
1010-660: A month of shore based training at Naval Air Station Oceana . In April 2005, the Air Force received its first three F2 standard Rafale Bs at the Centre d'Expériences Aériennes Militaires (CEAM, i.e. the Military Air Experiment Centre) at Mont-de-Marsan , where they were tasked to undertake operational evaluation and pilot conversion training. By this time, it was expected that Escadron de Chasse (Fighter Squadron) 1/7 at Saint-Dizier would receive
1111-448: A more military sense) is a French twin-engine , canard delta wing , multirole fighter aircraft designed and built by Dassault Aviation . Equipped with a wide range of weapons, the Rafale is intended to perform air supremacy , interdiction , aerial reconnaissance , ground support , in-depth strike, anti-ship strike and nuclear deterrence missions. It is referred to as an "omnirole" 4.5th generation aircraft by Dassault. In
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#17327980643991212-452: A non-polluting combustion chamber, single-crystal turbine blades, powder metallurgy disks, and technology to reduce radar and infrared signatures. The M88 enables the Rafale to supercruise while carrying four missiles and one drop tank. Qualification of the M88-2 engine ended in 1996 and the first production engine was delivered by the end of the year. Due to delays in engine production,
1313-446: A nucleus of 8–10 Rafale F2s during the summer of 2006, in preparation for full operational service (with robust air-to-air and stand off air-to-ground precision attack capabilities) starting from mid-2007 (when EC 1/7 would have about 20 aircraft, 15 two-seaters and five single-seaters). Carrier-based aircraft A carrier-based aircraft (also known as carrier-capable aircraft , carrier-borne aircraft , or carrier aircraft )
1414-536: A platform for testing of weapons and fire-control systems, including the RBE2 radar and the SPECTRA electronic warfare suite. The first of two Rafale M ( maritime , "naval") prototypes, M01, made its maiden flight on 12 December 1991, followed by the second on 8 November 1993. These aircraft differed from the air force variants in having reinforced structure to allow the aircraft to operate aboard ships, and provision for
1515-617: A ski-jump to assist take-off (rather than using a catapult). These are conventional aircraft however and require arresting wires to land on the ship. The Kuznetsov-class aircraft carriers of the Russian Navy and People's Liberation Army Navy operate the Su-33 (Russia) and J-15 (China) as STOBAR aircraft. Others include the Indian Vikramaditya and Vikrant ; both will operate MiG-29Ks . Prior to World War II,
1616-575: A tail hook and an in-built ladder, which increased the weight of the Rafale M by 500 kg (1,100 lb) over other production variants. Since France has no land-based catapult test facility, catapult trials were carried out in mid-1992 and early 1993 at the United States Navy facility at NAS Lakehurst , New Jersey . The aircraft then carried out shipboard trials aboard Foch in April 1993. The aircraft conducted landings and launches from
1717-622: Is a naval aircraft designed for operations from aircraft carriers . Carrier-based aircraft must be able to launch in a short distance and be sturdy enough to withstand the abrupt forces of launching from and recovering on a pitching deck. In addition, their wings are generally able to fold up, easing operations in tight quarters. Such aircraft are designed for many purposes including air-to-air combat , surface attack , anti-submarine warfare (ASW) , search and rescue (SAR) , transport (COD) , weather observation , reconnaissance and airborne early warning and control (AEW&C) duties. The term
1818-567: Is capable of withstanding from −3.6 g to 9 g (10.5 g on Rafale solo display and a maximum of 11 g can be reached in case of emergency ). The Rafale is an aerodynamically unstable aircraft and uses digital fly-by-wire flight controls to artificially enforce and maintain stability. The aircraft's canards also act to reduce the minimum landing speed to 115 knots (213 km/h; 132 mph); while in flight, airspeeds as low as 15 knots (28 km/h; 17 mph) have been observed during training missions. According to simulations by Dassault,
1919-535: Is deliberately not employed for safety-critical elements of the aircraft's operation, such as the final release of weapons. In the area of life support , the Rafale is fitted with a Martin-Baker Mark 16F "zero-zero" ejection seat , capable of operation at zero speed and zero altitude. An on-board oxygen generating system , developed by Air Liquide , eliminates the need to carry bulky oxygen canisters. The Rafale's flight computer has been programmed to counteract pilot disorientation and to employ automatic recovery of
2020-413: Is generally applied only to fixed-wing aircraft , as naval helicopters are able to operate from a wider variety of ships , including helicopter carriers , destroyers , frigates and container ships. The 1903 advent of fixed-wing aircraft was followed in 1910 by the first flight of an aircraft from the deck of an anchored warship (the United States Navy 's USS Birmingham ), and in 1912, by
2121-413: Is heavily reliant upon sensory targeting pods, such as Thales Optronics 's Reco New Generation/Areos reconnaissance pod and Damocles electro-optical/laser designation pod . Together, these systems provide targeting information, enable tactical reconnaissance missions, and are integrated with the Rafale's IMA architecture to provide analysed data feeds to friendly units and ground stations, as well as to
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#17327980643992222-462: Is inconceivable that we should not be able to build the weapons necessary for our independence". France had earlier entered unsuccessful talks with Belgium, Denmark, the Netherlands, and Norway, about the possible collaboration on the project. To meet the various roles expected of the new aircraft, the Air Force required two variants: the single-seat Rafale C ( chasseur , meaning "fighter") and
2323-423: Is typically outfitted with 14 hardpoints (only 13 on Rafale M version), five of which are suitable for heavy armament or equipment such as auxiliary fuel tanks, and has a maximum external load capacity of nine tons. In addition to the above equipment, the Rafale carries the 30 mm GIAT 30 revolver cannon and can be outfitted with a range of laser-guided bombs and ground-attack munitions. According to Dassault,
2424-478: The Curtiss P-40 Warhawk , Republic P-47 Thunderbolt , Supermarine Spitfire , and Hawker Hurricane , were often delivered to overseas air bases by aircraft carrier. They would be loaded onto an aircraft carrier in port by cranes, flown off the carrier at sea near their destination under their own power, and land on a friendly airfield ashore. These were not usually combat missions but in some cases
2525-733: The Dassault MD 315 Flamant ( flamingo ), the Dassault Falcon ( falcon ) family and the Dassault Hirondelle ( swallow ). LOGIDUC was a 3-step program with the following aims: The Petit Duc and Moyen Duc both reached the flying stage; the Grand Duc was cancelled in 2003 and replaced by the nEUROn European project. Dassault Rafale The Dassault Rafale ( French pronunciation: [ʁafal] , literally meaning "gust of wind", or "burst of fire" in
2626-719: The Gulf of Oman , where its complement of Rafales undertook training operations. In June 2002, while Charles de Gaulle was in the Arabian Sea, Rafales conducted several patrols near the India-Pakistan border. In 2016, Rafales operating from Charles de Gaulle struck targets associated with the Islamic State of Iraq and the Levant (IS). In December 2015, American and French military officials reportedly discussed
2727-503: The MBB / BAe "European Collaborative Fighter" project which was renamed the "European Combat Aircraft" (ECA). The company contributed the aerodynamic layout of a prospective twin-engine, single-seat fighter; however, the project collapsed in 1981 due to differing operational requirements of each partner country. In 1983, the "Future European Fighter Aircraft" (FEFA) programme was initiated, bringing together France, Italy, Spain, West Germany and
2828-586: The MICA at beyond visual range distances; it can also be used for detecting and identifying airborne targets, as well as those on the ground and at sea. Dassault describes the OSF as being immune to jamming and capable of providing covert long-range surveillance. In 2012, an improved version of the OSF was deployed operationally. Initial deliveries of the Rafale M were to the F1 ("France 1") standard, which were equipped for
2929-597: The RBE2 AA active electronically scanned array (AESA) radar and the optronique secteur frontal infra-red search and track (IRST) sensor, were domestically developed and produced for the Rafale programme. Originally scheduled to enter service in 1996, the Rafale suffered significant delays due to post- Cold War budget cuts and changes in priorities. There are three main variants: Rafale C single-seat land-based version, Rafale B twin-seat land-based version, and Rafale M single-seat carrier-based version. Introduced in 2001,
3030-656: The Serbian Air Force . The Rafale is considered one of the most advanced and capable warplanes in the world, and among the most successful internationally. It has been used in combat over Afghanistan, Libya, Mali, Iraq and Syria. In the mid-1970s, the French Air Force ( Armée de l'Air ) and French Navy ( Marine Nationale ) had separate requirements for a new generation of fighters to replace those in or about to enter service. Because their requirements were similar, and to reduce cost, both services issued
3131-551: The final version was to be a full-scale (5,000kg) prototype stealth "combat drone" (UCAV). Each vehicle was given an owl name as "Duc" ("duke") is the French name of a nocturnal bird of prey species known in Latin as Otus aka Scops owl . Petit Duc ("small duke") stands for scops owl , Moyen Duc ("medium duke") stands for long-eared owl and Grand Duc ("large duke") is eagle owl . Other Dassault aircraft with bird names are
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3232-691: The sinking of Prince of Wales and Repulse , the Battle of Taranto , the Attack on Pearl Harbor and numerous other incidents. Following the war, carrier operations continued to increase in size and importance. The vital importance of aircraft carriers, and therefore carrier-capable aircraft, quickly became apparent at the onset of the war in the Pacific where the US's island hopping campaign meant that being able to conduct air operations at sea far from an airbase
3333-483: The AM39 Exocet sea skimming missile, while reconnaissance flights would use a combination of onboard and external pod-based sensor equipment. Furthermore, the aircraft could conduct nuclear strikes when armed with ASMP-A missiles. In 2010, France ordered 200 MBDA Meteor beyond-visual-range missiles which greatly increases the distance at which the Rafale can engage aerial targets. The F4 standard program
3434-566: The Areos reconnaissance pod, and it has been reported that all aircraft built to the earlier F1 and F2 standards are to be upgraded to become F3s. F3 standard Rafales are capable of undertaking many different mission roles with a range of equipment, namely air defence/superiority missions with Mica IR and EM air-to-air missiles, and precision ground attacks typically using SCALP EG cruise missiles and AASM Hammer air-to-surface missiles. In addition, anti-shipping missions could be carried out using
3535-740: The French government ordered an additional 60 aircraft to take the total order for the French Air Force and Navy to 180. The Rafale is manufactured almost entirely in France, except for some imported non-sensitive components. Different components are produced in various plants across the country, including the fuselage in Paris, wings in Martignas, and fins in Biarritz, with final assembly taking place in Merignac near Bordeaux. Dassault carries out 60% of
3636-468: The IMA greatly assists combat operations via data fusion, the continuous integration and analysis of the various sensor systems throughout the aircraft, and has been designed for the incorporation of new systems and avionics throughout the Rafale's service life. The Rafale features an integrated defensive-aids system named SPECTRA , which protects the aircraft against airborne and ground threats, developed as
3737-685: The Rafale A demonstrator was initially powered by the General Electric F404 engine. In May 2010, a Rafale flew for the first time with the M88-4E engine, an upgraded variant with lower maintenance requirements than the preceding M88-2. The engine is of a modular design for ease of construction and maintenance and to enable older engines to be retrofitted with improved subsections upon availability, such as existing M88-2s being upgraded to M88-4E standard. There has been interest in more powerful M88 engines by potential export customers, such as
3838-475: The Rafale A demonstrator. Although superficially similar to the heavier test vehicle, the aircraft was smaller, with a length of 15.3 m (50 ft) and a wingspan of 10.9 m (36 ft). It was less detectable by radar due to the canopy being gold-plated and the addition of radar-absorbent materials; Dassault had also removed the dedicated airbrake. The sole Rafale B two-seat preproduction aircraft, B01, made its first flight on 30 April 1993, and served as
3939-463: The Rafale B ( biplace , "two-seater"). Its first flight on 19 May 1991 occurred at the company's test facility in Istres. This signalled the start of a test programme which primarily aimed to test the M88-2 engines, man-machine interface and weapons, and expand the flight envelope . Due to budgetary constraints, the second single-seat prototype was never built. The aircraft differed significantly from
4040-564: The Rafale M was declared operational with the French Navy in June 2004. The Rafale M is fully compatible with United States Navy aircraft carriers and some French Navy pilots have qualified to fly the aircraft from US Navy flight decks. On 4 June 2010, during an exercise on USS Harry S. Truman , a French Rafale became the first jet fighter of a foreign navy to have its engine replaced on board an American aircraft carrier. In 2002,
4141-561: The Rafale after it was officially re-activated prior to the delivery of the sixth Rafale. Flottille 12F immediately participated in Trident d'Or aboard the aircraft carrier Charles de Gaulle with warships from ten other nations. During the maritime exercise , the Navy tested the Rafale's avionics during simulated interceptions with various foreign aircraft, in addition to carrier take-offs and landings. After almost four years of training,
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4242-416: The Rafale has sufficient low speed performance to operate from STOBAR -configured aircraft carriers, and can take off using a ski-jump with no modifications. The Rafale M features a greatly reinforced undercarriage to cope with the additional stresses of naval landings, an arrestor hook , and "jump strut" nosewheel, which only extends during short takeoffs, including catapult launches. It also features
4343-962: The Rafale is being produced for both the French Air Force and for carrier-based operations in the French Navy. It has been marketed for export to several countries, and was selected for purchase by the Egyptian Air Force , the Indian Air Force , the Indian Navy , the Qatar Air Force , the Hellenic Air Force , the Croatian Air Force , the Indonesian Air Force , the United Arab Emirates Air Force and
4444-593: The Rafale to launch miniaturised satellites . In January 2014, the defence ministry announced that funds had been allocated towards the development of the F3R standard. The standard includes the integration of the Meteor BVR missile, among other weapons and software updates. The standard was validated in 2018. Development work started on the F4 standard in 2019. The design received radar and sensor upgrades that facilitate
4545-698: The Rafale's airframe , avionics , propulsion system and armament , the resultant aircraft was to replace a multitude of aircraft in the French Armed Forces . The Rafale would perform roles previously filled by an assortment of specialised platforms, including the Jaguar , Mirage F1C/CR/CT , Mirage 2000C/-5/ N in the French Air Force, and the F-8P Crusader , Étendard IVP/M and Super Étendard in French Naval Aviation. At
4646-499: The Rafale's onboard mission systems enable ground attack and air-to-air combat operations to be carried out within a single sortie, with many functions capable of simultaneous execution in conjunction with another, increasing survivability and versatility. The Rafale is fitted with two Snecma M88 engines, each capable of providing up to 50 kilonewtons (11,000 pounds-force) of dry thrust and 75 kN (17,000 lb f ) with afterburners. The engines feature several advances, including
4747-541: The Rafale's unit cost had significantly increased due to additional development work to improve the RBE2's detection range. The RBE2 AA active electronically scanned array (AESA) radar now replaces the previous passively scanned RBE2. The RBE2 AA is reported to deliver a greater detection range of 200 km, improved reliability and reduced maintenance demands over the preceding radar. A Rafale demonstrator began test flights in 2002 and has totaled 100 flight hours as of December 2011 . By December 2009, production of
4848-483: The Rafale's visibility to threats remain classified. The Rafale's glass cockpit was designed around the principle of data fusion —a central computer selects and prioritises information to display to pilots for simpler command and control. For displaying information gathered from a range of sensors across the aircraft, the cockpit features a wide-angle holographic head-up display (HUD) system, two head-down flat-panel colour multi-function displays (MFDs) as well as
4949-563: The Rafale, and provides a significantly improved reconnaissance capability over preceding platforms. Areos has been designed to perform reconnaissance under various mission profiles and condition, using multiple day/night sensors and its own independent communications datalinks. The Rafale was first outfitted with the Thales RBE2 passive electronically scanned multi-mode radar . Thales claims to have achieved increased levels of situational awareness as compared to earlier aircraft through
5050-511: The Rafales were first deployed to a combat zone; seven Rafale Ms embarked aboard Charles de Gaulle of the French Navy during " Mission Héraclès ", the French participation in " Operation Enduring Freedom ". They flew from the aircraft carrier over Afghanistan, but the F1 standard precluded air-to-ground missions and the Rafale did not see any action. In March 2002, the aircraft carrier was stationed in
5151-532: The Sniper and LITENING pods; so work began on an upgraded pod, designated Damocles XF, with additional sensors and added ability to transmit live video feeds. A new Thales targeting pod, the Talios, was officially unveiled at the 2014 Farnborough Air Show and is expected to be integrated on the Rafale by 2018. Thales' Areos reconnaissance pod is an all-weather, night-and-day-capable reconnaissance system employed on
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#17327980643995252-431: The U.S. Nimitz class , the U.S. Gerald R. Ford -class , and France's Charles de Gaulle . The use of catapults allows an aircraft carrier to launch large fixed-wing aircraft. For example, the U.S. Navy launches its E-2 Hawkeye AEW aircraft and C-2A Greyhound cargo aircraft with catapults. STOVL take-offs are accomplished with " ski-jumps ", instead of a catapult. STOVL use usually allows aircraft to carry
5353-480: The U.S. Navy as follows: CATOBAR is a system used for the launch and recovery of aircraft from the deck of an aircraft carrier . Under this technique, aircraft are launched using a catapult-assisted take-off and landing on the ship using arresting wires . Although this system is more costly than alternative methods, it provides greater flexibility in carrier operations, since it allows the aircraft to operate with higher payloads. Ships with CATOBAR currently include
5454-629: The United Arab Emirates (UAE). As of 2007 , a thrust vectoring variant of the engine designated as M88-3D was also under development. In December 2000, the French Naval Aviation ( Aéronavale ), the air arm of the French Navy, received its first two Rafale M fighters. On 18 May the following year, the squadron Flottille 12F , which had previously operated the F-8 Crusader , became the first squadron to operate
5555-533: The United Kingdom to jointly develop a new fighter, although the latter three had their own aircraft developments. French officials envisioned a lightweight, multirole aircraft that—in addition to fulfilling both air force and naval roles —it was believed, would be attractive on the export fighter market. This was in contrast to the British requirement for a heavy long-range interceptor. France also demanded
5656-505: The air-to-air interceptor combat duties, but lacked any armament for air-to-ground operations. The F1 standard became operational in 2004. Later deliveries were to the "F2" standard, which added the capability for conducting air-to-ground operations; the first F2 standard Rafale M was delivered to the French Navy in May 2006. Starting in 2008 onwards, Rafale deliveries have been to the nuclear-capable F3 standard that also added reconnaissance with
5757-480: The aircraft during negative flight conditions. The auto-pilot and autothrottle controls are also integrated, and are activated by switches located on the primary flight controls. An intelligent flight suit worn by the pilot is automatically controlled by the aircraft to counteract in response to calculated g-forces. The Rafale core avionics systems employ an integrated modular avionics (IMA), called MDPU (modular data processing unit). This architecture hosts all
5858-417: The aircraft had been flown by Air Force, Navy and CEV test pilots. Its port-side F404 engine was replaced with the 72.9 kN (16,400 lbf) M88 in early 1990, and the aircraft flew under the updated powerplant configuration in May 1990. The aircraft thereafter attained a speed of Mach 1.4 without the use of engine reheat , thereby demonstrating supercruise. The Rafale A was used until January 1994, and
5959-593: The aircraft had two 68.8 kN (15,500 lbf) General Electric F404 engines that were then in service with the F/A-18 Hornet, pending the availability of the Snecma M88 turbofan engines . It was rolled out in December 1985 at Saint-Cloud , and on 4 July 1986, made its first flight from the company's Istres test facility in southern France, piloted by Guy Mitaux-Maurouard. During the one-hour flight,
6060-469: The aircraft reached an altitude of 11,000 m (36,000 ft) and a speed of Mach 1.3. The aircraft participated in the Farnborough air show the following month. The aircraft participated in an intensive flight test programme that saw it simulate air force and naval operations. The test vehicle flew approaches to the carrier Clemenceau , and also tested for coordination with Foch . By 1987,
6161-459: The aircraft's sensors and avionics, and to allow additional armament integration. In 2011, upgrades under consideration included a software radio and satellite link, a new laser-targeting pod, smaller bombs and enhancements to the aircraft's data-fusion capacity. In July 2012, fleetwide upgrades of the Rafale's battlefield communications and interoperability capabilities commenced. At one stage, French officials were reportedly considering equipping
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#17327980643996262-597: The battle for the F/A-18s, I guess you could say that we had at least some success by 'persuading' the government to give us initial delivery priority". The first production Rafale B took its first flight on 24 November 1998, followed by the first Rafale M for the French Navy on 7 July 1999. The Rafale has been designed with an open software architecture that facilitates straightforward upgrades. Dassault and its industry partners have therefore undertaken continuous tests and development primarily aimed at progressively improving
6363-784: The decks of carriers. Carrier aircraft were used extensively during the Korean and Vietnam wars. Douglas A-4 Skyhawks participated in the first strikes of the Vietnam War in response to attacks against American destroyers in the Tonkin Gulf in August 1964. The A-4's small size and light weight meant a high number could be loaded onto carriers, making them an important resource during the Vietnam war. There are three main types of modern carrier-based aircraft, which are categorised by
6464-464: The detection of airborne stealth targets at long range, as well as improved capabilities in the helmet-mounted display. With improved communications equipment, it is also more effective in network-centric warfare. Flight tests were conducted starting in 2021 and the first F4-standard aircraft was delivered in 2023. Previous aircraft will be upgraded to the standard, with a further 30 aircraft to be ordered in 2023. The total programme cost, as of FY2013,
6565-503: The development cost, with first flight to take place in 1986. At the time, there was no guarantee that the effort would result in a full-scale development programme, and the aircraft remained a purely "proof-of concept" test vehicle. In an effort to harmonize design specifics with the requirements of other countries while collaboration talks were being held, Dassault sized the ACX aircraft in the 9.5 tonne range. After France decided to pull out of
6666-459: The earlier detection and tracking of multiple air targets for close combat and long-range interception, as well as real-time generation of three-dimensional maps for terrain-following and the real-time generation of high resolution ground maps for navigation and targeting. In early 1994, it was reported that technical difficulties with the radar had delayed the Rafale's development by six months. In September 2006, Flight International reported
6767-434: The entry of the aircraft into service. At one stage, French naval authorities investigated the possibility of acquiring used F/A-18s to replace the obsolete F-8 for its carriers, but the French government intended an all-Rafale fleet, and did not go ahead with the plan. Deliveries of the Rafale M were subsequently given a high priority to replace the Navy's aged F-8 fighters. In the words of a naval official, "Although we lost
6868-566: The first aircraft series formally started in December 1992, but was suspended in November 1995 due to political and economic uncertainty, and resumed in January 1997 after the Ministry of Defence and Dassault agreed on a 48-aircraft (28 firm and 20 options) production run with delivery between 2002 and 2007. A further order of 59 F3 Rafales was announced in December 2004. In November 2009
6969-460: The first flight of an aircraft from the deck of a warship underway (the Royal Navy 's HMS Hibernia ). Seaplanes and seaplane tender support ships, such as HMS Engadine , followed. This evolution was well underway by the early 1920s, resulting in ships such as HMS Argus (1918), Hōshō (1922), USS Langley (1922), and Béarn (1927). With these developments,
7070-548: The first time they would fly combat missions from one. As many as 18 Rafale Ms could be deployed on a carrier, although some room would have to be made for French Navy support crews familiar with maintaining the Rafale, as well as for spare parts and munitions. Operation Chesapeake, a test of this interoperability, was conducted in May 2018, when 12 Rafales of Flottilles 11F, 12F, and 17F , along with nearly 350 support personnel embarked aboard USS George H.W. Bush for two weeks of carrier qualifications and exercises after conducting
7171-515: The highly digitised cockpit is an integrated direct voice input (DVI) system, allowing a range of aircraft functions to be controlled by spoken voice commands, simplifying the pilot's access to many of the controls. Developed by Crouzet [ fr ] , the DVI is capable of managing radio communications and countermeasures systems, the selection of armament and radar modes, and controlling navigational functions. For safety reasons, generally DVI
7272-419: The initial technology demonstrator include a reduction in the size of the tail-fin, fuselage reshaping, repositioning of the engine air inlets underneath the aircraft's wing, and the extensive use of composite materials and serrated patterns for the construction of the trailing edges of the wings and canards. Seventy percent of the Rafale's surface area is composite. Many of the features designed to reduce
7373-453: The introduction of Charles de Gaulle , France's first nuclear-powered carrier , which was considerably larger than previous carriers, Foch and Clemenceau . Although not a full-aspect stealth aircraft , the cost of which was viewed as unacceptably excessive, the Rafale was designed for a reduced radar cross-section (RCS) and infrared signature . In order to reduce the RCS, changes from
7474-633: The late 1970s, the French Air Force and French Navy sought to replace and consolidate their existing fleets of aircraft. In order to reduce development costs and boost prospective sales, France entered into an arrangement with the UK, Germany, Italy and Spain to produce an agile multi-purpose "Future European Fighter Aircraft" (which would become the Eurofighter Typhoon ). Subsequent disagreements over workshare and differing requirements led France to pursue its own development programme. Dassault built
7575-631: The launched aircraft provided air cover for the ship, and the aircraft could not be recovered by the carrier. Some STOL aircraft, such as the North American Rockwell OV-10 Bronco , have been operated from aircraft carriers and amphibious assault ships in this manner more recently, but this is not common practice. Even very large aircraft such as the Lockheed C-130 Hercules have been successfully landed and launched from large aircraft carriers, but
7676-497: The main aircraft functions such as the flight management system , data fusion, fire control , and the man-machine interface. The total value of the radar, electronic communications and self-protection equipment is about 30 percent of the cost of the entire aircraft. The IMA has since been installed upon several upgraded Mirage 2000 fighters, and incorporated into the civilian airliner, the Airbus A380 . According to Dassault,
7777-424: The minimal cockpit systems and a fly-by-wire flight control system for the validation of the design's basic airframe-engine layout. The company desired to use the Rafale A to continue the company approach of risk reduction through incremental improvement and to test the aerodynamically unstable delta wing-canard configuration. The aircraft was Dassault's 92nd prototype in 40 years. At the time of its construction,
7878-448: The multilateral talks in July 1985 to preserve the technological independence of its fighter aircraft industry. West Germany, the UK and Italy opted out and established a new European Fighter Aircraft (EFA) programme. In Turin , on 2 August 1985, West Germany, the UK and Italy agreed to go ahead with the EFA, and confirmed that France, along with Spain, had chosen not to proceed as a member of
7979-430: The multilateral talks, designers focused on a more compact size, as specified by the Air Force. The ACX programmed was renamed Rafale ("squall") in April 1985. Construction of the Rafale A (ACX) technology demonstrator started in 1984. It had a length of 15.8 m (52 ft), a wingspan of 11 m (36 ft), and a 9.5 t (21,000 lb) empty weight. The austere aircraft lacked in major subsystems, and had
8080-414: The need for specialized aircraft adapted for take-offs and landings from the flight decks of those ships became recognized. The significance of air power grew between the wars, driven by the increased range, carrying power, and effectiveness of carrier-launched aircraft, until it became impossible to disregard its importance during World War II, following the loss of many warships to aircraft, including
8181-457: The nuclear-powered aircraft carrier Charles de Gaulle in July 1999. Testing showed that the aircraft had the ability to land with significant loads of unexpended ordnance. The Rafale B was initially expected to be just a trainer, but the Gulf War showed that a second crew member was invaluable on strike and reconnaissance missions. The Air Force therefore switched its preferences towards
8282-461: The pilot. Damocles provides targeting information to the various armaments carried by the Rafale and is directly integrated with the Rafale's VHF / UHF secure radio to communicate target information with other aircraft. It also performs other key functions such as aerial optical surveillance and is integrated with the navigation system as a FLIR . The Damocles designation pod was described as "lacking competitiveness" when compared to rivals such as
8383-414: The possibility of French naval Rafale Ms flying combat missions from a US Navy Nimitz -class aircraft carrier as soon as January 2017. This would enable continued French Navy operations against ISIL while Charles de Gaulle undergoes its year-and-a-half-long major refit, scheduled to begin in early 2017. Although Rafales have launched and landed on U.S. carriers to demonstrate interoperability, it would be
8484-489: The possible configurations of the new fighter under the codename Rapace ("Bird of Prey"). By March 1980, the number of configurations had been narrowed down to four, two of which had a combination of canards , delta wings and a single vertical tail-fin . The ACX project was given political impetus when the French government awarded a contract for two (later reduced to one) technology demonstrator aircraft on 13 April 1983. The government and industry would each provide half of
8585-459: The pre-series RBE2 AA radars was underway. In early October 2012, the first Rafale equipped with an RBE2 AA radar arrived at Mont-de-Marsan Air Base for operational service (the development was described by Thales and Dassault as "on time and on budget"). By early 2014, the first Air Force front-line squadron were supposed to receive Rafales equipped with the AESA radar, following the French Navy which
8686-533: The programme, as it implemented recently developed processes such as digital mockup and product data management (PDM). Engineers worked directly with computers in generating 3D models of the aircraft, and took advantage of the design software in facilitating machine-tool preparation. The system consisted of 15GB databases of each of the Rafale's components, assisting with various aspects of the design, manufacture and through-life support. The computer-aided arrangement also simplified routine maintenance. Production of
8787-465: The project needed to compete with other defense acquisition programmes for a dwindling national defense budget. This occurred in a political environment in which the chief security threat, the Soviet Union, no longer existed. The French government consequently reduced Rafale orders, which Dassault and other companies involved claimed impeded production management and led to higher costs, and delayed
8888-417: The project. Despite pressure from France, Spain rejoined the EFA project in early September 1985. The four-nation project eventually resulted in the Eurofighter Typhoon 's development. In France, the government proceeded with its own programme. The Ministry of Defence required an aircraft capable of air-to-air and air-to-ground, all-day and adverse weather operations. As France was the sole developer of
8989-530: The same time as the multinational talks were occurring, Dassault-Breguet had been busy designing its Avion de Combat Experimental (ACX). During late 1978, prior to France's joining of the ECA, Dassault received contracts for the development of project ACT 92 ( Avion de Combat Tactique , meaning "Tactical Combat Airplane"). The following year, the National Office for Aviation Studies and Research began studying
9090-517: The ship's speed with even the lightest prevailing winds, combined with a low take-off speed allowed early aircraft to gain flying speed in a very short distance. The most extreme version of this was the battleship platforms used during the 1920s when small, World War I-era biplane fighters such as the Sopwith Camel were launched from only a few dozen feet long mounted atop of a battleship 's forward gun turret . Conventional aircraft, such as
9191-549: The successor to the Rafale as the New Generation Fighter . This fighter aircraft, under development by Dassault Aviation and Airbus Defence and Space , is to replace France's Rafale, Germany's Eurofighter Typhoon, and Spain's F/A-18 Hornet in the 2030–2040 timeframe. The Rafale was developed as a modern jet fighter with a very high level of agility; Dassault chose to combine a delta wing with active close-coupled canard to maximize manoeuvrability. The aircraft
9292-448: The two-seater, and planned that the variant would constitute 60 percent of the Rafale fleet. The service originally planned to order 250 Rafales, later reduced to 234 aircraft, 95 "C" and 139 "B" models", and then to 212 aircraft. The Navy originally planned to order 86 Rafales, which was reduced to 60 by to budget cuts, 25 M single-seaters and 35 two-seat Ns. The two-seater was later cancelled. The ACX and subsequent production Rafale
9393-491: The weight of most aircraft allowed them to be launched from aircraft carriers under their own power, but required assistance in stopping. Catapults were installed but were used only when the ship was stationary or adequate wind over the deck could not be arranged by sailing into the wind. Even aircraft as large as the North American B-25 Mitchell were launched in this manner. This was possible because
9494-507: The work, its partner Thales 25%, and its other partner Safran 15%. The three companies rely on a network of 500 subcontractors, many of which are small and medium enterprises , providing work for 7,000 direct and indirect employees. As of 2012 , each fighter took 24 months to manufacture, with an annual production rate of eleven aircraft. The Rafale was originally planned to enter service in 1995. The aircraft's development proceeded on time, on budget, and without major difficulties. However,
9595-639: Was around €45.9 billion, which translated to a unit programme cost of approximately €160.5 million. This figure takes in account improved hardware of the F3 standard, and which includes development costs over a period of 40 years, including inflation. The unit flyaway price as of 2010 was €101.1 million for the F3+ version. The Rafale is planned to be the French Air and Space Force's primary combat aircraft until at least 2040. In 2018, Dassault announced
9696-425: Was awarded on 21 April 1988 for a test and validation programme. There was nevertheless government uncertainty in the programme, as it was expected to cost some Ffr120 billion (1988 francs) in total development and procurement costs. Prime minister Michel Rocard was concerned about the state of the project and the failure of the previous government to secure cooperation with other countries, but stated that, "It
9797-629: Was crucially important. At the onset Japan used 125 Mitsubishi A6M Zeros launched from 6 aircraft carriers to attack the Naval base at Pearl Harbor , with the result of sinking or damaging 21 warships, and destroying 188 aircraft. The war saw the creation of new carrier capable aircraft such as the Vought F4U Corsair , and further variants of the Zero . Often carrier aircraft would have folding wings or wingtips to maximise space conservation on
9898-493: Was designed in a "virtual" format. Dassault used the experience and technical expertise of its sister company Dassault Systèmes , which had invented the CATIA (Computer Aided Three-dimensional Interactive Application) system, a three-dimensional computer-aided design and computer-aided manufacture (CAD/CAM) software suite that became standard across the industry. CATIA enabled digitization and efficiency improvements throughout
9999-497: Was launched on 20 March 2017 by the French ministry of defence. The first F4.1 standard test aircraft was delivered in March 2023. For compatibility with armaments of varying types and origins, the Rafale's onboard store management system is compliant with MIL-STD-1760 , an electrical interface between an aircraft and its carriage stores, thereby simplifying the incorporation of many of their existing weapons and equipment. The Rafale
10100-406: Was retired after 867 sorties. The early successful demonstration programme increased French industry and government confidence in the viability of a full-scale development programme for the Rafale. In June 1987, French prime minister Jacques Chirac declared that the government would proceed with the project. A contract for four pre-production aircraft (one Rafale C, two Rafale Ms and one Rafale B)
10201-437: Was slated to receive AESA-equipped Rafales starting in 2013. To enable the Rafale to perform in the air supremacy role, it includes several passive sensor systems. The front-sector electro-optical system or Optronique Secteur Frontal (OSF), developed by Thales, is completely integrated within the aircraft and can operate both in the visible and infrared wavelengths. The OSF enables the deployment of infrared missiles such as
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