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15 septembre 2015 2 15 /09 /septembre /2015 07:20
photo US Navy

photo US Navy

 

09 September, 2015 BY: James Drew - FG

 

Washington DC  - The long-running debate over the mission of the US Navy's carrier-launched unmanned surveillance and strike aircraft might have set the "UCLASS" competition back few years, but the maritime force's acquisition chief says getting the requirements right from the beginning is vital.

 

“This programme is in acquisition hell right now. It’s been inside the building for three years, just trying to get out and see the light of day,” Navy assistant secretary Sean Stackley said at a Navy League forum in Washington 9 September. “We’ll debate on it some more this fall (September to November) with OSD to determine whether or not we have the right programme, not just for the navy, but the nation.” With many conflicting views and opinions about the role of the aircraft, Stackley says once the requirements question is settled, the programme will have a much better chance of delivering the carrier-based UAV the navy needs to maintain its technological edge. “It will be five to 10 years before [UCLASS] is operational, and then it will be flying for another 20 to 25 years. We’ve got to get it right,” he says. “We’re all being patient. Industry is being patient. The navy views this as a critical programme and we’ve got to leverage what unmanned offers to our [carrier] air wing sooner rather than later.”

 

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2 juin 2015 2 02 /06 /juin /2015 16:20
X-47B First to Complete Autonomous Aerial Refueling photo US Navy

X-47B First to Complete Autonomous Aerial Refueling photo US Navy

 

May 17, 2015: Strategy Page

 

The U.S. Navy’s X-47B UCAS (unmanned combat air system) continues to break or make records. Thus in 2015 this included the world's first fully autonomous aerial refueling in April, performed with a KC-707 tanker. During the last few years this unmanned combat aircraft has successfully carried out numerous operations aboard aircraft carriers. These tests were often firsts for UCAS. Thus an X-47B made its first catapult launch from an aircraft carrier on May 14th 2013. That was followed by several touch and go landings on a carrier. The first carrier landing, as expected, followed soon after. Later in the year more flight tests further stressed the capabilities of the automatic landing system, especially in high speed and complex (different directions) winds. The autolanding systems passed all these tests. The X-47B was also the first UAV to land and be off the carrier deck in less than 90 seconds, just like manned aircraft. There were a lot of other tests to see how effectively and reliably the X-47B could operate on the carrier and hanger deck and do it alongside manned aircraft. All this is part of a long-term navy plan to introduce an UCAS replacement for the F-35 (which is soon to replace the F-18s) in the 2030s. But if the UCAS progress continues to be swift and the costs low (compared to manned aircraft), the F-35 could find its production run much reduced to make room for an UCAS.

 

While software controlled landing systems have been around for decades, landing on a moving air field (an aircraft carrier) is considerably more complex than the usual situation (landing on a stationary airfield). Dealing with carrier landings requires more powerful hardware and software aboard the aircraft. The navy expected some glitches and bugs and appears to be rapidly catching up to the reliability of commercial landing software (which has been used very successfully on UAVs) within months rather than decades.

 

Rather than begin development on the slightly larger X-47C, which was be the first naval UCAV to enter service, the navy changed that plan and is now seeking new designs for a UCLASS (unmanned carrier-launched airborne surveillance and strike) aircraft. There will be a competition by development aircraft in 2016. It’s likely, but not certain, that one of those 2016 competitors will be the X-47C.

 

All this comes after the navy rolled out the first X-47B in 2008. This was the first carrier-based combat UAV, with a wingspan of 20 meters (62 feet, and the outer 25 percent folds up to save space on the carrier) and stay in the air for up to twelve hours. The 20 ton X-47B weighs a little less than the 24 ton F-18A and has two internal bays holding two tons of smart bombs. It is a stealthy aircraft. As it exists right now the X-47B could be used for a lot of bombing missions, sort of a super-Reaper. The navy has been impressed with the U.S. Air Force success with the Predator and Reaper. But the propeller driven Reaper weighs only 4.7 tons. The much larger X-47B uses a F100-PW-220 engine, which is currently used in the F-16 and F-15.

 

The X-47C was expected to be closer to 30 tons and have a payload of over four tons. The X-47B was never mean to be the definitive carrier UCAV, but the navy hoped it would be good enough to show that unmanned aircraft could do the job. Normally, "X" class aircraft are just used as technology demonstrators. The X-47 program has been going on for so long, and has incorporated so much from UAVs already serving in combat that it was thought that the X-47 may end up eventually running recon and bombing missions as the MQ-47C. But in February 2015 the navy stated that the X-47B was too costly and insufficiently stealthy to become it's carrier UCAV, and the two prototypes will be turned into museum exhibits upon completion of all flight testing, extant and length of which is not ultimately decided yet.

 

The U.S. is far ahead of other nations in UCAS development, and this is energizing activity in Russia, Europe, and China to develop similar aircraft. A Chinese UCAS, called the Li Jian was photographed moving around an airfield under its own power back in early 2013, which is the sort of thing a new aircraft does before its first flight (which took place in November, 2013). Since 2011 the Li Jian has been photographed as a mock up, then a prototype, and now taxiing around and in flight. The Li Jian is similar in size and shape to the U.S. Navy X-47B.

 

It’s generally recognized that robotic combat aircraft are the future, even though many of the aviation commanders (all of them pilots) wish it were otherwise. Whoever gets there first (an UCAV that really works) will force everyone else to catch up, or end up the loser in their next war with someone equipped with UCASs. China may have just copied pictures of the X-47B, or done so with the help of data obtained by their decade long Internet espionage operation. Whatever the case, the Li Jian is not far behind the X-47B.

 

These aircraft are meant to operate like current armed UAVs or like cruise missiles (which go after targets under software, not remote, control). Enemy jamming can interfere with remote control and you have to be ready for that. This means pre-programmed orders to continue the mission (to put smart bombs on a specific target, the sort of attack cruise missiles have been carrying out for decades) or attempt that but turn around and return to base if certain conditions were not met (pre-programmed criteria of what is an acceptable target). Fighter (as opposed to bomber) UCASs can be programmed to take on enemy fighters (manned or not) with some remote control or completely under software control. This is the future and China wants to keep up.

 

The U.S. Navy has done the math and realized that they need UCASs on their carriers as soon as possible. The current plan is to get these aircraft into service by the end of the decade. But a growing number of navy leaders want to get the unmanned carrier aircraft into service sooner than that. The math problem that triggered all this is the realization that American carriers had to get within 800 kilometers of their target before launching bomber aircraft. Potential enemies increasingly have aircraft and missiles with a range greater than 800 kilometers. The X-47B UCAS has a range of 2,500 kilometers and is seen as the solution.

 

The Department of Defense leadership is backing the navy efforts and spurring the air force to catch up. At the moment, the air force is cutting orders for MQ-9s, which are used as a ground support aircraft, in addition to reconnaissance and surveillance, because American troops are being pulled out of Afghanistan, and it is believed Reaper would not be very useful against China, North Korea, or Iran. But, as the Navy is demonstrating, you can build UCASs that can carry more weapons, stay in the air longer, and hustle to where they are needed faster. The more the navy succeeds, the more the air force will pay attention and probably use a lot of the navy developed UAV hardware and software technology.

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28 avril 2015 2 28 /04 /avril /2015 11:20
photo US Navy

photo US Navy


23 avr. 2015 by US Navy

 

PATUXENT RIVER, Md. (April 22, 2015) The X-47B successfully conducted the first ever Autonomous Aerial Refueling (AAR) of an unmanned aircraft April 22, completing the final test objective under the Navy's Unmanned Combat Air System demonstration program. (U.S. Navy video/Released)

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10 décembre 2014 3 10 /12 /décembre /2014 17:20
X-47B May Begin Automated Aerial Refueling Demonstrations Next Year

 

08.12.2014 By Valerie Insinna - nationaldefensemagazine.org

 

The Navy’s carrier-based unmanned aircraft demonstrator is undergoing preparations for automated aerial refueling testing next year, including a possible flight demonstration using the aircraft itself, said officials from the service and X-47B manufacturer Northrop Grumman.

Thusfar, the Navy had used a surrogate aircraft for AAR testing.

The service in June 2014 awarded a contract modification to Northrop Grumman for aerial refueling research, development, test and evaluation efforts at Naval Air Station Patuxent River in Maryland, Capt. Beau Duarte, the Navy’s X-47B program manager, wrote in an emailed statement.

 

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12 septembre 2014 5 12 /09 /septembre /2014 07:20
The X-47Bs proved engineering concepts for designing unmanned carrier-based jet aircraft, the objective of the new UCLASS program - photo US Navy

The X-47Bs proved engineering concepts for designing unmanned carrier-based jet aircraft, the objective of the new UCLASS program - photo US Navy

 

 

Sept 11, 2014 defense-unmanned.com

(Source: US Naval Air Systems Command; issued Sept 10, 2014)

 

Navy Integrates ‘Common’ Software Into Next-Generation Unmanned Carrier-Based System

 

PATUXENT RIVER, Md. --- NAVAIR engineers recently installed new software for the Navy’s Unmanned Carrier-Launched Airborne Surveillance and Strike (UCLASS) system’s control station at the program’s Naval Air Station Patuxent River lab.

 

In early September, the UCLASS team integrated the latest iteration of Common Control System (CCS) software into the next-generation unmanned effort, laying the groundwork for potential use across multiple domains –airborne, land and subsurface.

 

“One of the premises that started CCS was not rebuilding the software that we needed for every UAS every time,” said Jeff Davis, CCS team lead. “We focused on using existing products that we have within the Navy inventory to provide that first baseline going forward for the next UAS, in this case UCLASS. As a result, this allows development investment to focus on the future — the new capabilities that you can bring to the fleet.”

 

This new software version is the first to provide an unmanned command and control capability using the latest Navy Interoperability Profile (NIOP) standards. The NIOPs allow control systems to talk to and share data with multiple air vehicles, Davis said.

 

His team leveraged support from other unmanned programs, specifically Triton and Fire Scout, to build baseline software for UCLASS. They are currently testing this software with an air vehicle simulator based on Triton.

 

“This iteration forms the baseline for all future UCLASS control software,” said Cmdr. Wade Harris, Control System and Connectivity (CS&C) lead for UCLASS. “These early lab tests will help inform us as we move forward with development and eventually test with the air vehicle.”

 

As the lead systems integrator, the Navy is spearheading the CS&C and carrier segments, while working with industry to lead the design and development the air system segment.

 

“One of the unique aspects of the UCLASS program is that we have to pull all of the different segments together,” said Ron La France, UCLASS integration lead. “We have the control station and connectivity segment, carrier segment, along with the air system segment. All three of those have to be integrated and tested at the system level and that is what we will do here in this lab.”

 

These government-led segments require a high-level of coordination. The UCLASS program team is working with 72 programs of record, 22 program offices, six program executive offices and three systems commands, he said.

 

UCLASS will be the first-ever, forward-deployed, carrier-based unmanned air system designed to provide persistent intelligence, surveillance, reconnaissance and targeting with precision-strike capability. An early operational capability is anticipated in the 2020-2021 timeframe.

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10 septembre 2014 3 10 /09 /septembre /2014 16:20
X-47B Achieves New Set of 1sts Aboard USS Theodore Roosevelt

 

Sep 10, 2014 ASDNews Source : Naval Air Systems Command

 

The Navy's X-47B completed its final test aboard USS Theodore Roosevelt (CVN 71) Aug. 24 and returned to its home base at Naval Air Station Patuxent River after eight days at sea.

While underway, the X-47B flew in the carrier pattern with manned aircraft for the first time and conducted a total of five catapult launches, four arrestments and nine touch-and-go landings, including a night time shipboard flight deck handling evaluation.

 

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8 septembre 2014 1 08 /09 /septembre /2014 11:20
X-47B Completes Final Tests Underway


5 sept. 2014 US  Navy

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5 juin 2014 4 05 /06 /juin /2014 06:20
X-47B UAV To Conduct Test Flights With F-18s


June 3, 2014 by David Pugliese
 

Navy Times has this article on the U.S. Navy’s X-47B which heads to the fleet later this summer for the next step of testing: landing and taking off alongside manned aircraft.

 

More from the article:

 

This summer, the X-47B goes back out to sea with the carrier Theodore Roosevelt to complete takeoffs and landings from a moving carrier with jets in the pattern.

“The next step is to operate the aircraft in the pattern with a manned counterpart,” said Capt. Beau Duarte, Unmanned Combat Air Systems Demonstration program manager for Naval Air Systems Command. “We’ll have a couple of F/A-18s, so we can evaluate the ability to land and clear the landing area, see if we can mimic the time lines that are required for manned aircraft.”

So far, the testing has consisted of perfecting taxi, takeoff and landing routines — first from land, then from a land-based catapult, and now from a catapult on an aircraft carrier at sea.

 

Full story her

 

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15 avril 2014 2 15 /04 /avril /2014 07:20
photo US Navy

photo US Navy

 

14.04.2014 Helen Chachaty -  journal-aviation.com

 

Le démonstrateur de drone X-47B a réalisé son premier vol de nuit le 10 avril dernier, depuis la base aéronavale de Patuxent River. L’US Navy précise que les vols de nuit font partie des prochaines étapes pour développer le concept d’opération du drone.

 

L’X-47B, développé par Northrop Grumman, est un démonstrateur de drone de combat destiné aux études de R&D et R&T, afin d’étendre le champ des possibilités pour intégrer des aéronefs non-pilotés à bord de plateformes aéronavales. Le programme UCLASS (Unmanned carrier-launched airborne surveillance and strike system) de l’US Navy prévoit notamment de nouvelles capacités de frappe et ISR.

 

L’X-47B a effectué son vol inaugural en février 2011, son premier catapultage depuis un porte-avions de l’US Navy en mai 2013, puis un premier appontage en juillet de la même année.

L’X-47B de Northrop Grumman a réalisé son premier vol de nuit
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10 mars 2014 1 10 /03 /mars /2014 16:55
European, US UCAV Programs Win Awards

 

March 10, 2014 defense-unmanned.com

 

Dassault Aviation and the French Defence Procurement Agency (DGA) Awarded by Aviation Week for the nEUROn Programme

 

(Source: Dassault Aviation; issued March 7, 2014)

 

SAINT-CLOUD, France --- Yesterday, at a ceremony held in Washington DC by the well-known defence and aeronautics magazine Aviation Week, Dassault Aviation and the French Defence Procurement Agency (DGA - Direction generale de l'armement ) were announced winner of the Laureate Awards, for the nEUROn programme, Europe's unmanned combat air vehicle (UCAV).

 

This price, that honors the values and visions of the global aerospace and defence industry, salutes the technological challenges performed and the innovative industrial solutions designed to develop the first large size stealth platform made in Europe, the nEUROn technological demonstrator.

 

Initiated by the French government in 2003 through the French Defence Procurement Agency with Dassault Aviation as prime contractor, the aim of the programme was to demonstrate the maturity and the effectiveness of technical solutions to face the main challenges of the future combat aircraft industry for the next twenty years.

 

The need to develop strategic technologies, the necessity to uphold advanced skills in areas in which the French industry has gained technical competences and fields of excellence, and the goal to provide workload to the design offices have led the nEUROn programme to be one of the most important for the defence sector.

 

The success of the nEUROn maiden flight, the 1st December 2012, validates the capability of the French industry to prepare the future of manned or unmanned combat aircraft systems.

 

It also illustrates the will of the French Authorities to be a major actor to the build-up of the future of defence, and the strategic commitment of Dassault Aviation to design and develop the best technologies to propose the outmost innovative operational solutions.

 

With more than 8,000 military and civil aircraft delivered to 83 countries over the past 60 years, and having logged nearly 28 million flight hours to date, Dassault Aviation can offer recognized know-how and experience in the design, development, sale and support of all types of aircraft, from the Rafale fighter to the Falcon range of high-end business jets, as well as military unmanned air systems. In 2013, Dassault Aviation reported revenues of EURO4.59 billion, with around 11,600 employees. (ends)

 

 

Navy’s X-47B Team Receives Prestigious Aviation Award

 

 

European, US UCAV Programs Win Awards

(Source: Naval Air Systems Command; issued Mar 7, 2014)

PATUXENT RIVER, Md. --- The X-47B Unmanned Combat Air System Demonstration (UCAS-D) team was honored by Aviation Week and Space Technology magazine as a winner of the publication’s prestigious Laureate Awards during a ceremony held March 6 in Washington, D.C.

 

Recognized for its work in the Aeronautics and Propulsion category, the X-47B UCAS-D team demonstrated the capability to operate a tailless, full-size Unmanned Air System (UAS) in the carrier environment, a first for naval aviation.

 

"It has truly been a phenomenal year for this team," said Rear Adm. Mat Winter, who oversees the Program Executive Office for Unmanned Aviation and Strike Weapons. "This award is a well-deserved recognition for the X-47B team and underpins the historical significance and dedication of the hundreds of civilian, military and industry teammates who were instrumental in executing the technical achievements required to operate the first-ever carrier-capable UAS."

 

Because of the UCAS-D team’s efforts, the X-47B conducted the first-ever launch and recovery of an unmanned air vehicle from a carrier at-sea. In 2013, the X-47B conducted eight catapult launches, 30 touch-and-goes and seven arrested landings while aboard USS George H.W. Bush (CVN 77) and USS Theodore Roosevelt (CVN 71).

 

“Our combined Navy and Northrop Grumman industry team is most deserving of this elite recognition for its tireless efforts to meet program objectives, while successfully demonstrating and maturing the critical technologies required for a carrier suitable, persistent unmanned air system,” said Capt. Beau Duarte, program manager for the Unmanned Carrier Aviation Program Office at Naval Air Station Patuxent River, Md.

 

Duarte said the team continues to refine the concept of operations to fully demonstrate the effective integration of unmanned carrier-based aircraft within the current carrier environment to reduce technical risk for the follow-on Unmanned Carrier Launched Airborne Surveillance and Strike (UCLASS) program.

 

The X-47B demonstration activities have validated the feasibility to operate unmanned aircraft in the harsh carrier environment and has helped develop the concept of operations and demonstrate the required technologies for a future unmanned carrier-based system.

 

 

Established more than 50 years ago, the Aviation Week Laureate Awards recognize the accomplishments of individuals and teams in the aerospace, aviation and defense industry, according to the organization’s website. The finalists’ “achievements embody the spirit of exploration, innovation and vision that inspire others to strive for significant, broad-reaching progress in these fields,” the website said.

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25 novembre 2013 1 25 /11 /novembre /2013 08:35
Lijian Sharp Sword UCAV

Lijian Sharp Sword UCAV

 

 

22/11 Par Claude Fouquet – lesEchos.fr

 

VIDEO - L'armée chinoise a fait voler son premier drone de combat furtif. Largement inspiré d'un modèle américain et baptisé "Lijian" ("Epée effilée") il a effectué un vol d'une vingtaine de minutes.

 

La Chine, dotée de la plus grande armée de la planète (Armée populaire de libération), d'un arsenal nucléaire conséquent et qui affiche le deuxième budget de défense du monde après les Etats-Unis, veut montrer au reste de la planète qu'elle est aussi à la pointe de la technologie militaire. Et peut donc prétendre à être dans le peloton de tête des armées modernes. Dans ce but, elle vient d'occicialiser le premier vol réel de son drone de combat furtif.

Inspiré du drone militaire américain Northrop Grumman X-47B, dont il reprend notamment son aile delta, baptisé "Lijian" ("Epée effilée"), et avec la vocation de conduire des missions de surveillance et de frappe à distance, il a effectué un vol d'une vingtaine de minutes jeudi avant de se poser sans problème apparent, selon des témoins cités dans les media chinois.

La chaîne de télévision CCTV a également diffusé quelques images de ce baptême de l'air. Officialisant ainsi la nouvelle qui circulait depuis quelques jours sur certains blogs spécialisés, y compris chinois. L'occasion pour les media officiels d'insister sur le fait que les capacités militaires chinoises se rapprochaient de celles des grandes nations occidentales.

 

 

Pékin veut créer une zone industrielle spécialisée pour les drones

 

De fait, avec ce vol, Pékin peut prétendre avoir rejoint le club des nations qui, comme les Etats-Unis où l'Europe , travaillent sur la prochaine génération d'avions de combat sans pilote. Et surtout signifier que la Chine entend bien continuer jouer un rôle dans ce domaine et dans cette partie du monde. Ce vol peut en effet être vu comme une réponse à la récente décision de Washington de déployer des drones d'observation Global Hawks au Japon. Un modèle qui lui aussi a inspiré les ingénieurs chinois pour un autre modèle de drone.

Sans oublier que selon le site spécialisé "Defense News", la Chine envisage de lancer une nouvelle zone industrielle dédiée à la production et au développement de drones, aux alentours de Pékin. Il s’agira d’un espace de 134 hectares qui inclura des chaînes d’assemblage à grande échelle.

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22 novembre 2013 5 22 /11 /novembre /2013 08:20
US Navy’s X-47B unmanned aircraft completes further carrier tests

X-47B Unmanned Combat Air System Demonstrator

 

21 November 2013 naval-technology.com

 

The US Navy's Northrop Grumman-built X-47B unmanned combat air system has successfully completed an additional round of carrier testing.

 

During the testing, conducted onboard fourth Nimitz-class aircraft carrier USS Theodore Roosevelt (CVN 71), the unmanned air system demonstrated its integration capability within the aircraft carrier environment.

 

Unmanned Carrier Aviation programme manager, captain Beau Duarte, said the X-47 demonstrated its capability in winds of higher magnitude and differing directions.

 

"This resulted in more stimulus provided to the aircraft's guidance and control algorithms and a more robust verification of its GPS autoland capability," Duarte said.

 

Tests included deck handling, carrier approaches and landings in off-nominal wind conditions, digitised ship systems interfaces and concept of operations development.

 

Unmanned Combat Air System deputy programme manager Barbara Weathers said the US Navy and industry team have performed productive flight operations in the CVN environment.

 

"The carrier systems installation and system checkouts were performed in record time, quite an amazing feat," Weathers said.

"The carrier systems installation and system checkouts were performed in record time, quite an amazing feat."

 

The X-47B aircraft conducted a total of 26 total deck touchdowns including 21 precise touch-and-goes and five arrested landings as well as five catapults, five commanded and two autonomous wave-offs over the flight test period.

 

Programme executive officer for unmanned aviation and strike weapons, rear admiral Matt Winter, said the trials demonstrated the feasibility and realistic path to achieving the manned / unmanned air wing of the future.

 

"The navy is committed to developing, maturing, and fielding unmanned carrier aviation capabilities into our carrier air wings and carrier environments," Winter said.

 

The X-47B aircraft will undergo further land and carrier based testing to mature unmanned technologies and refine concept of operations to further inform future unmanned carrier requirements for the US Navy.

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12 novembre 2013 2 12 /11 /novembre /2013 17:20
photo US Navy

photo US Navy

 

Nov 11, 2013 ASDNews Source : US Navy

 

The X-47B Unmanned Combat Air System Demonstrator (UCAS-D) conducted flight operations aboard the aircraft carrier USS Theodore Roosevelt (CVN 71), Nov. 10.

 

The event, the most-recent in a series of carrier-based tests, demonstrated the integration of the latest in naval aviation technology with the most advanced and capable carrier.

 

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More PICS

photo US Navy

photo US Navy

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26 septembre 2013 4 26 /09 /septembre /2013 07:20
Drone Warfare Version 2.0: Great Power Edition

September 26, 2013 By  Zachary Keck - thediplomat.com

 

The first decade of drone and unmanned warfare has been the exclusive domain of nation states like the U.S. and Israel using armed drones to target leaders of non-state actors like al-Qaeda, the Taliban and Hamas.

 

This type of drone warfare will almost certainly continue into the future, albeit at a reduced pace in the case of the U.S. targeting al-Qaeda and Taliban leaders. Other nation states may decide to make similar use of drones, if reports that China considered using drones to target an international drug trader are any indication.

 

Meanwhile, a second generation of drone warfare is taking shape: one in which countries employ unmanned aerial vehicles (UAVs) against other nation states.

 

As the world's military superpower, it should come as no surprise that the U.S. is taking the lead in this endeavor. In May of this year, the U.S. garnered some headlines when it launched the X-47B drone from the nuclear aircraft carrier USS George H.W. Bush off the coast of Virginia. Many more heads were turned in July, when the X-47B drone became the first unmanned aerial vehicle (UAV) to make a landing on the same aircraft carrier.

 

Last week a X-47B drone marked the 100th flight in the U.S. Navy’s Unmanned Combat Air System Demonstration (UCAS-D) program, which is geared toward maturing the capability to operate combat UAVs from aircraft carriers.

 

A press release announcing the 100th flight stated: “The Navy UCAS program successfully completed all objectives for the carrier demonstration phase with the X-47B.” It went on to note: “The program is currently planning for continued carrier integration demonstrations and has also begun surrogate Learjet testing of the autonomous aerial refueling (AAR) capability.” Earlier this month, the Navy announced key successes in this latter, refueling objective.

 

This followed the Navy’s announcement in August that the two prototype X-47Bs would not be retired to museums as planned, but instead would continue to be utilized for the purpose of, among other things, “developing unmanned aircraft carrier fleet concept of operations.”

 

Also in August, the U.S. Naval Air System Command (NAVAIR), which is overseeing the efforts to develop a carrier-based UAV fleet, announced that it had awarded US$15 million Preliminary Design Review (PDR) contracts to four defense companies for the Unmanned Carrier Launched Airborne Surveillance and Strike (UCLASS) program, which is designed to provide the U.S. Navy with its first deployed carrier-based unmanned air system.

 

As NAVAIR explained in a press release announcing the contracts, the carrier-based drone “will provide persistent, unmanned, semi-autonomous, carrier-based Intelligence, Surveillance, Reconnaissance and Targeting (ISR &T) with precision strike capability to support 24/7 carrier operational coverage.”

 

According to Defense News, the carrier-based UAVs will initially have a strike capability of around 2,000 km. This hints at a key purpose of the drones; namely, to allow the U.S. to continue to strike China with sea-based aircraft while keeping America’s aircraft carriers outside the range of the PLA’s DF-21 anti-ship ballistic missile (ASBM). In other words, the sea-based drones will be a key component of America’s efforts to counter adversaries’ anti access/area denial (A2/AD) strategies.   

 

The U.S. is also putting together the larger infrastructure to execute this strategy. For example, in July Rear Adm. Thomas J. Moore, the Navy’s Program Executive Officer for Aircraft Carriers, confirmed that the Ford-class aircraft carriers, the next-generation U.S. carriers, are being built with the capabilities to launch large fleets of UAVs off them.

 

As Moore explained of the Ford Class: “The flight deck has been designed to be bigger and have a higher sortie generation rate. The ship itself is built with three-times the electrical generating capacity than the Nimitz {Ford predecessor} class has – so it is not hard to envision that we are going to be flying unmanned aircraft off that ship.”

 

One crucial difference between using drones against terrorists in areas where the air force enjoys air superiority, and in using them against peer-competitors in contested air space, is that the vulnerability of the drones to air defense systems becomes a key concern in the latter environment. Thus, whereas U.S. drones can loiter over Pakistani airspace for days trying to pinpoint the location of al-Qaeda operatives, they will enjoy no such luxury in trying to eliminate China’s land-based missile systems.

 

As such, the carrier-based combat drones that come out of the UCLASS will be unlikely to conduct their own surveillance in many of the missions in which they were operate. For that, the U.S. is developing different UAVs. As Foreign Policy reported last month, the U.S. Navy envisions “swarms of tiny drones infiltrating heavily defended skies at will.”

 

Summarizing a U.S. Air Force official, the report noted that “these bug-like surveillance bots will be particularly useful in the Pacific…. Because that represents the toughest challenge for American spyplanes: snooping on say, a China equipped with increasingly advanced air defenses.” Presumably, these nano-drones will collect intelligence on targets for the UCLASS drones.

 

The U.S. is developing another unmanned system to counter China’s A2/AD strategy. Earlier this month, Defense Advanced Research Projects Agency (DARPA) solicited bids from defense companies for its Hydra program, which will “develop and demonstrate an unmanned undersea system, providing a novel delivery mechanism for insertion of unmanned air and underwater vehicles into operational environments.” News reports suggest that submarines will also be launched from the Hydra system. This would give the U.S. the ability to launch carrier-based aircraft from devices that would be impervious to China’s ASBMs.

An X-47B Unmanned Combat Air System demonstrator launches from the aircraft carrier USS George H.W. Bush (CVN_77) May 14, 2013, in the Atlantic Ocean

An X-47B Unmanned Combat Air System demonstrator launches from the aircraft carrier USS George H.W. Bush (CVN_77) May 14, 2013, in the Atlantic Ocean

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23 septembre 2013 1 23 /09 /septembre /2013 12:20
Analysis: Industry concerned about US Navy UCLASS requirements

Sep. 23, 2013 by Dave Majumdar – FG

 

Washington DC - Concerns are being raised within industry about the new direction mandated by the Pentagon for the US Navy’s Unmanned Carrier Launched Surveillance and Strike (UCLASS) aircraft programme.

 

The reason for the concern is because the Pentagon’s Joint Requirements Oversight Council (JROC) has fundamentally altered the requirements for the UCLASS from a long-range penetrating strike platform to something akin to a modestly stealthy carrier-based Predator. “Where it leaves us is developing an alternative that meets the requirements that the navy has outlined,” says one industry source – which means spending even more company money after funding nearly three years of internal research and development designing an aircraft without any guidance from the USN.

 

“This looks like a giant runaway for General Atomics and Predator, I would not be surprised if the other companies ‘no-bid,’” says Dan Goure, an analyst at the Lexington Institute. Companies such as Boeing, Lockheed Martin and Northrop Grumman have spent a large sum of their own money on UCLASS and may not want to dump even more money into what amounts to a stacked deck, he says.

 

“It does damage to an industrial base that is already fragile,” Goure adds.

 

Congress is also concerned about the direction of the USN acquisition strategy, which has been described as “atypical”. In a letter to navy secretary Ray Mabus, congressmen Randy Forbes and Mike McIntyre – chairman and ranking member of the House Armed Services Committee’s sea power subcommittee respectively – question the service’s plan to field four carrier air wings worth of UCLASS aircraft before the completion of operational testing or even a formal “Milestone B” decision to enter engineering and manufacturing development.

 

This is a concern shared by some in industry. “I have had similar concerns regarding the navy trying to procure one to four carriers worth of UCLASS aircraft for early operational capability as part of a technology demonstration phase that is pre-Milestone B,” says another industry source. “The only type of technology development programme which results in ‘residual operational assets or capabilities’ used to be called a JCTD [Joint Capabilities Technology Demonstration] – which the UCLASS programme is not.”

 

However, more fundamentally for the industry, both industry sources concur that the USN has deviated significantly from the normal process for developing a new aircraft. Typically, the industry would have been developing solutions over the past two years based on an initial set of navy-issued requirements. Those specifications would have been refined and updated as needed, based on various industry-informed trade studies, both sources say. That procedure would likely have yielded more relevant industry investment, more affordable requirements and a better overall competition.

 

The USN, however, did not issue any aircraft performance specifications or draft requirements until the spring of 2013. That means that for nearly three years, industry teams have been developing potential UCLASS candidates using their own money and based on their own assumptions about the navy’s requirements, both sources agree. That means each competitor is now trying to “force-fit” their aircraft into the UCLASS preliminary design review phase – which is now requiring even more investment, one industry source says.

 

The lack of industry feedback has had some unforeseen consequences. Superficially, the shift to an aircraft designed for long-duration orbits over permissive airspace would appear to favour General Atomics, which builds the MQ-1 Predator and MQ-9 Reaper. However, the current requirements are not as simple as they look, says one industry source. “They want to span the deck-cycle, the means the endurance has to be greater than 12h,” he says. “From a carrier that’s pretty significant because you have limitations on wing-span just because of the carrier environment.”

 

Fundamentally from an engineering standpoint, to achieve better endurance, the aircraft must have a higher aspect ratio wing – which means a longer wing-span. However, on board a carrier, the wing-span is limited to about the same length as a Northrop X-47B. The absolute maximum is probably 70ft (21m), which means – by necessity – weight reduction is the key to meeting the USN’s new requirements.

 

“If you were allowed to refuel in the air then you might actually have a much broader performance spectrum,” the source says. “With that gone, you’re into designing as light a weight structure as can survive the carrier environment and hold as much fuel as you can.

 

Although the navy says that the UCLASS is going to be designed to operate in “permissive and low-end contested environments”, one industry source says that the low-observable requirement was not completely removed. “I don’t think the survivability requirements are trivial,” he says. However, he concedes that “the overwhelming design driver now is endurance without refueling”.

 

An aircraft carrier would be expected to deploy enough UCLASS aircraft to maintain two orbits about 600nm (1,110km) distance from the ship, or maintain a single orbit at a range of 1,200nm. If the UCLASS were called on to conduct a light strike mission, it could attack lightly defended targets at a distance of 2,000nm. As currently envisioned, the UCLASS will have a total payload of 1,360kg (3,000lb), of which only 454kg would consist of air-to-ground weapons.

 

Either a flying-wing or wing-body tail configuration could meet the requirements, the industry source says. However, the endurance requirement is strenuous enough that the source says that he is not sure that a turbofan engine is a “viable option”.

 

Boeing and General Atomics appear to have selected a wing-body tail design, while Lockheed Martin has disclosed its RQ-170-derived flying-wing concept. Presumably, the Northrop design will resemble its X-47B demonstrator.

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13 septembre 2013 5 13 /09 /septembre /2013 07:20
Photo CTSi

Photo CTSi

Sep 12, 2013 ASDNews Source : Naval Air Systems Command

 

The Navy continues to demonstrate multiple technologies that promise to significantly increase the endurance and range of carrier-based unmanned aircraft.

 

As part of the Unmanned Combat Air System Demonstration (UCAS-D) program, the Navy and industry partner Northrop Grumman completed another phase of its Autonomous Aerial Refueling (AAR) test, Sept. 6, in Niagara Falls, N.Y. to demonstrate the capability to refuel unmanned aircraft in flight.

 

“The AAR segment of the UCAS-D program is intended to demonstrate technologies, representative systems, and procedures that will enable unmanned systems to safely approach and maneuver around tanker aircraft. We are demonstrating both Navy and Air Force style refueling techniques,” said Capt. Jaime Engdahl, Navy Unmanned Combat Air System program manager. The Navy, Air Force, and the Defense Advanced Research Projects Agency have been working closely since 2001 to develop technologies and mature operating concepts for AAR, according to Engdahl.

 

In preparation for this phase of the AAR testing, Calspan Aerospace developed, built, and tested an inert refueling probe that they installed on the nose of a surrogate unmanned aircraft, a Learjet inflight simulator. In August, the AAR UCAS-D team arrived at the Calspan facility and while a team from Northrop Grumman installed the X-47B’s navigation, command and control, and vision processor hardware and software on a Calspan Learjet aircraft, the government team installed the government developed Refueling Interface System and Tanker Operator Station on an Omega 707 tanker aircraft. The team then conducted initial ground and taxi tests, which culminated in the first AAR test flight Aug. 28. The team then conducted a series of flights using the surrogate aircraft equipped to fly autonomously behind an Omega K-707 Tanker.

 

The AAR test was designed to assess the functionality of final X-47B AAR systems and navigation performance, as well as to test the government tanker refueling interface systems. The AAR program is using similar digital messaging, and navigation processes that have been demonstrated by the UCAS-D team aboard the aircraft carrier.

 

“Demonstrating AAR technologies and standard refueling procedures is the next logical step for our demonstration program. The team has shown that we can use the same systems architecture, Rockwell Collins TTNT datalink, and Precision Relative GPS (PGPS) algorithms to extend the concept of distributed control of autonomous systems from the aircraft carrier to the airborne refueling environment,” said Engdahl. “The initial tests showed excellent system integration as well as good navigation and vision system performance.”

 

The next phase of AAR testing will continue later this fall, exercising end-to-end AAR concept of operations with a complete autonomous rendezvous, approach, plug, and safe separation utilizing X-47B software and hardware installed in the Lear surrogate aircraft. Data from the demonstration will be used to assess system performance for multiple AAR refueling technologies, validate the AAR procedures and concepts, and support further development of future unmanned systems.

 

“By demonstrating that we can add an automated aerial refueling capability to unmanned or optionally manned aircraft, we can significantly increase their range, persistence and flexibility,” said Engdahl, who is very impressed with the system’s performance thus far. “This is a game-changer for unmanned carrier aviation.”

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5 septembre 2013 4 05 /09 /septembre /2013 16:35
X-47B Completes First-Ever Carrier-Based Arrested Landing USS George H.W. Bush (CVN 77)– photo US Navy

X-47B Completes First-Ever Carrier-Based Arrested Landing USS George H.W. Bush (CVN 77)– photo US Navy

Sept. 5, 2013 defense-aerospace.com

(Source: People's Daily Online; published Sept. 5, 2013)

 

What R&D Breakthroughs Are Required to Give China A Carrier-Borne UCAV?

 

Military experts are currently speculating on whether China's aircraft carrier may be equipped with unmanned combat air vehicles (UCAV). This has not only increased public interest in these new "robot fighters", but also led China's military devotees to wonder whether China's forthcoming self-developed aircraft carrier will similarly be equipped with shipborne UCAVs.

 

The technical threshold of the unmanned air vehicle is relatively low. A company that can manufacture sophisticated model aircraft has the technology to develop a UAV. However, the threshold of a UCAV is more than 10 times higher than that of a UAV. The combat capability of UCAV requires particular abilities in target identification and autonomous attack. Thus the requirements of the observing and targeting system (eyes), the control system (brain), and the communication system (mouth and ears) of a UCAV are very high. On the one hand, the UCAV should be able to detect the target that is to be attacked, while transmitting images to remote controllers; on the other hand, the UCAV should be able to receive remote directions based on human judgment, and then launch attacks or engage in combat under remote control.

 

Shipborne UAVs were not manufactured specifically for aircraft carriers. It is already the case that some advanced modern destroyers and surface vessels have been equipped with shipborne UAVs.

 

But the greater platform size of an aircraft carrier creates the opportunity for large-scale UAVs with combat and attack capabilities. However, this presents a technical difficulty - carrier-borne UCAVs need all the functions of ordinary UCAVs, but also require an independent capacity to take off from and land on aircraft carriers. The requirements of carrier-borne UCAVs include not only attack and combat capability, but also the delicate maneuvers of 'intelligent' aircraft.

 

Therefore the development of a carrier-borne UCAV involves extremely high research costs and a complex development process. If China intends to commission UCAVs similar to the US carrier-borne X-47B, five technical breakthroughs must be made.

 

The first is advanced aerodynamic design. It can be seen from the shape of the X-47B that these designs improve stealth, increase flight range, and respond to the demands of air attack and combat. The X-47B, the UK "Taranis", and France's "Neuron" all feature a recessed rear inlet and flying-V wings.

 

The second step is advanced flight control technology. This is the real technical challenge for the UCAV. The carrier-borne UCAV requires a full range of capabilities covering takeoff, cruise, combat, withdrawal, and landing. The demands on the electronic take-off and landing systems for the moving deck of an aircraft carrier are significantly higher than the requirements for a land-based airport.

 

A UCAV's flight control equipment adjusts the craft in flight. This requires the flight control computer to implement planning and design according to a series of algorithms as quickly as possible after feedback, and update in response to environment changes detected by sensors.

 

Combat imposes high demands on the UCAV's flight control system. Whether in aerial combat or an attack on an enemy target, both the UCAV itself and the target can be moving at high speeds. The flight control system must be able to control the aerial maneuvers of the UCAV in response to a dynamic battlefield environment.

 

Returning to and landing on the aircraft carrier are the steps with the highest accident rate for both manned and unmanned combat aircraft. Therefore, China’s shipborne UCAV will require not only advanced satellite navigation, but also a higher specification of flight control system to achieve a safe landing.

 

The third element is intelligent attack-defense integrated firing control. The U.S. military classifies UAVs in levels ranging from ACL-1 to ACL-10 (totally autonomous). A relatively complete firing control system begins at level ACL-4. The more advanced generation of shipborne UCAVs such as the X-47B are classified at level ACL-6, that is a UAV with the capacity to deal with sudden threats and targets in the form of multiple drones. At this level, the shipborne UCAV is required to have an autonomous attack-defense integrated firing control system with a significant degree of “intelligence”.

 

The fourth feature is a high thrust-weight ratio turbofan, achieved at low cost. The turbojet/turbofan engines used on American UCAVs are always derived from civil engines or manned military planes. For example, the X-47B uses the F100-220U turbofan engine derived from the F-100, originally developed for the F-16. The characteristics and combat environment for a UCAV require that its engine should have a low fuel consumption rate, a high thrust-weight ratio, low R&D and purchase costs, convenience for maintenance, and fitness for long-term storage.

 

The fifth element is information security. Communications between the UCAV and the remote controller are very likely to be targeted for disruption by the adversary. Thus the UCAV must use the most sophisticated network security technology, and error-free self-destruct programs.

 

Although the UCAV is an excellent weapon, the technical difficulties cannot be ignored. UCAV development experts throughout the world have racked their brains in search of solutions to the problems posed by intelligent flight and firing control systems, and the need to guarantee information transmission security.

 

In the development of a carrier-borne UCAV, we need to exercise patience. If China intends to research and develop such an aircraft, then high-tech combat attributes should perhaps be considered as a second phase. Functions such as early warning, investigation, and relay-guidance of UAV can be executed as a first priority.

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12 juillet 2013 5 12 /07 /juillet /2013 07:20
US Navy details X-47B navigation system malfunction on 3rd carrier landing attempt

July 11, 2013 by Zach Rosenberg – FG

 

Washington DC - The Northrop Grumman X-47B landed twice aboard the USS George H.W. Bush aircraft carrier, but a malfunction with one of its three navigation computers prevented a third landing. The aircraft subsequently diverted to Wallops Field, Virginia, as programmed, for a safe recovery.

 

"There are three redundant navigation computers on the X-47," says Capt Jaime Engdahl, the US Navy's programme manager for unmanned systems. "We saw an issue on one of those computers and decided we had done enough for the day, flew the aircraft back and landed it."

 

The aircraft makes its approaches autonomously, without human interference. The computers onboard the aircraft noted the anomaly affecting one of the three precision GPS computers, and though capable of landing using only one, the aircraft is coded to abort landing under those circumstances. After the automatic abort, the human controller elected to divert the aircraft instead of continuing.

 

"They're working through the data right now," says Carl Johnson, Northrop Grumman's programme manager. "In terms of a malfunction it's probably a minor issue, that when we reset the computers everything will be up and running and we'll have a fully functional aircraft."

 

Two X-47Bs are flying. The aircraft used for the test has the tail number 502. An identical aircraft, tail number 501, will likely be used for the next aircraft carrier test series on 15 July. If all goes well in the second series, the X-47B's tests will be completed and the aircraft retired. A manned Learjet using X-47B's software will conduct autonomous air-to-air refueling trials in 2014.

 

The lessons learned from the X-47B demonstrations will be used to address the Unmanned Carrier-Launched Airborne Surveillance and Strike (UCLASS) programme, meant to essentially create an operational production UAV for aircraft carriers. Four companies - Northrop, Lockheed Martin, Boeing and General Atomics Aeronautical Systems - have been selected to perform design work.

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11 juillet 2013 4 11 /07 /juillet /2013 11:20
First X-47B Trap - U.S. Navy photo by Capt. Jane E. Campbell 10-07-2013

First X-47B Trap - U.S. Navy photo by Capt. Jane E. Campbell 10-07-2013

7/10/2013 Strategy Page

 

ATLANTIC OCEAN (July 10, 2013) An X-47B Unmanned Combat Air System (UCAS) makes a carrier-based arrested landing aboard the aircraft carrier USS George H.W. Bush (CVN 77) off the coast of Virginia. The successful landing marks the first time a tailless, unmanned autonomous aircraft landed on a modern aircraft carrier. (U.S. Navy photo by Capt. Jane E. Campbell)

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11 juillet 2013 4 11 /07 /juillet /2013 07:20
X-47B Completes First-Ever Carrier-Based Arrested Landing USS George H.W. Bush (CVN 77)– photo US Navy

X-47B Completes First-Ever Carrier-Based Arrested Landing USS George H.W. Bush (CVN 77)– photo US Navy

A BORD DE L'USS HW BUSH (Etats-Unis), 10 juil 2013 marine-oceans.com  (AFP)

 

Le X-47B, un prototype de drone furtif, a apponté sur le porte-avions américain USS George HW Bush mercredi, une première ouvrant un nouveau chapitre dans l'histoire de l'aéronavale, a annoncé l'US Navy.

 

L'appareil, contrôlé à distance mais plus autonome que les drones actuels comme le Reaper ou le Predator, avait décollé quelques dizaines de minutes auparavant de la base aéronavale de Patuxent River, dans le Maryland (est), pour rejoindre le porte-avions croisant au large des côtes de Virginie (est).

 

Le X-47B "opère de façon autonome lors de son vol et lors de l'approche du navire mais l'officier d'appontage a un contrôle numérique direct grâce à un bouton" d'interruption en cas de problème, a expliqué le capitaine de vaisseau Jaime Engdahl, responsable du programme.

 

Le démonstrateur, destiné à développer les technologies pour les futurs drones de l'US Navy, avait déjà été catapulté du pont du George Bush le 14 mai.

 

Le X-47B, qui n'a pas d'empennage arrière, est doté d'un moteur à réaction, et a une forme dite en "aile de chauve-souris" pour accroître ses capacités furtives. Il a été conçu depuis 2007 par la firme américaine Northrop Grumman, qui construit également le drone d'observation Global Hawk.

 

L'appareil a une envergure de 19 mètres pour une longueur de 12 mètres. Ce n'est à ce stade qu'un démonstrateur et il faudra de nombreuses années de mise au point avant l'entrée en service opérationnelle de drones dans l'US Navy.

 

Sa portée de 2.100 miles nautiques (3.900 kilomètres) en fait un potentiel bombardier à long rayon d'action.

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11 juillet 2013 4 11 /07 /juillet /2013 07:20
X-47B lands aboard USS George H.W. Bush (CVN 77) July 10 (U.S. Navy photo)

X-47B lands aboard USS George H.W. Bush (CVN 77) July 10 (U.S. Navy photo)

10.07.2013 Helen Chachaty - journal-aviation.com

 

C'est une nouvelle étape capitale qui a été franchie : Le démonstrateur de drone de combat X-47B de Northrop Grumman a effectué avec succès son premier appontage ce 10 juillet. Le drone a décollé de la BAN de Patuxent River, effectuant sa manœuvre d’appontage à bord du plus récent porte-avions de la classe Nimitz, l'USS George H.W. Bush de l’US Navy (CVN-77).

 

C’est un nouveau succès pour le programme UCAS-D de l’US Navy, qui cherche ainsi à étudier et à tester les capacités d’un drone à partir d’une plateforme maritime. Les deux démonstrateurs technologiques X-47B qui sont actuellement utilisés pour les essais n’ont pas vocation à être produits en série et déployés en opérations, mais ils sont néanmoins cruciaux pour les études de R&D et de R&T dans le domaine des appareils non pilotés.

 

Le programme « opérationnel » de l’US Navy est quant à lui nommé UCLASS (Unmanned carrier-launched airborne surveillance and strike system). Une RFI (request for information) a été dévoilée il y a trois ans, l’appel d’offre devrait lui être annoncé prochainement. Il s’agit pour l’US Navy de se doter de capacités ISR ainsi que de capacités de frappe pour équiper ses porte-avions à l’horizon 2018. Lockheed Martin, Boeing, General Atomics et bien sûr Northrop Grumman sont les quatre industriels attendus sur ce créneau.

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10 juillet 2013 3 10 /07 /juillet /2013 23:58

10 juil. 2013 U.S. Navy

The X-47B Unmanned Combat Air System (UCAS) demonstrator completed its first and second carrier-based arrested landing on board USS George H.W. Bush (CVN 77) off the coast of Virginia July 10.

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10 juillet 2013 3 10 /07 /juillet /2013 22:16
X-47B Completes First-Ever Carrier-Based Arrested Landing USS George H.W. Bush (CVN 77)– photo US Navy

X-47B Completes First-Ever Carrier-Based Arrested Landing USS George H.W. Bush (CVN 77)– photo US Navy

7/10/2013 1:45:00 PM From Secretary of the Navy Public Affairs Story Number: NNS130710-06

 

USS GEORGE H. W. BUSH, at sea (NNS) -- The X-47B Unmanned Combat Air System (UCAS) demonstrator completed its first-ever carrier-based arrested landing on board USS George H.W. Bush (CVN 77) off the coast of Virginia July 10.

 

"By evolving and integrating new technology like the X-47B and the unmanned aircraft to follow, carriers will remain relevant throughout their 50-year lifespan," said Secretary of the Navy Ray Mabus.

 

Today's demonstration was the first time a tailless, unmanned autonomous aircraft landed on a modern aircraft carrier.

 

This test marks an historic event for naval aviation that Navy leaders believe will impact the way the Navy integrates manned and unmanned aircraft on the carrier flight deck in the future.

 

In May 2013, the X-47B successfully completed underway carrier deck operations aboard USS George H. W. Bush to include a first-ever catapult launch and nine touch-and-gos.

 

"We have certainly come a long way in the 102 years since Eugene Ely made the first arrested landing aboard an aircraft carrier. Naval aviators have always been at the forefront of operational and tactical innovation, and today was no exception," said Mabus. "People make unmanned aviation possible and it is people who will provide the fresh thinking and new ideas so crucial to successes like the X-47B program and the unmanned aircraft of the future."

 

The Navy will continue to update this story as more information from today's demonstration is made available.

All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy
All photos by USS George H.W. Bush (CVN 77) - US Navy

All photos by USS George H.W. Bush (CVN 77) - US Navy

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9 juillet 2013 2 09 /07 /juillet /2013 14:20
X-47B UCAS - Aviation History Under Way - Video

9 juil. 2013 Northrop Grumman

A musical revue of the historic first catapult of a U.S. Navy unmanned aircraft system from a carrier, May 2013.

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28 mai 2013 2 28 /05 /mai /2013 16:20
X-47B Carrier Suitability Testing Spring 2013 - video

Northrop Grumman's X-47B completing carrier suitability testing at NAS Patuxent River in Spring, 2013.

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