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UK Tempest project, good article.

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As potential foreign partners take a serious interest in British proposals to develop a new-generation combat aircraft, the UK government and industry are quietly working on the technologies that will pave the way for it.

Few details of the Tempest’s progress have emerged in the nine months since British Defense Secretary Gavin Williamson unveiled the UK vision for a new combat aircraft to be ready in the late 2030s.

To get there, the UK is taking a multipronged approach. While the Combat Air Strategy outlined that Britain would stay in the combat aircraft development game, the Future Combat Air System Technology Initiative (FCAS TI), an eight-year, £2 billion ($2.6 billion) program of research jointly funded by government and industry, is examining the technologies that could be needed not only for the future combat aircraft but also to support future upgrades for the Eurofighter Typhoon and the Lockheed Martin F-35 Joint Strike Fighter (JSF).

UK efforts to develop UCAV technologies will be flowed into the Tempest and associated systems

Trials of hardware to support the development of an open-systems architecture will be underway shortly

The public face of FCAS TI is Team Tempest, the joint government and industry consortium made up of the Royal Air Force’s Rapid Capabilities Office, BAE Systems, Leonardo, MBDA and Rolls-Royce.

All these elements feed into an acquisition program within the Defense Ministry that will ultimately lead to a platform to replace the Typhoon. An initial business case for that platform will be delivered in December 2020, a full business case in 2025 and initial operational capability in 2035.

“Everything we do is focused on ensuring the UK is ready as a globally competitive combat air enterprise,” Group Capt. Jez Holmes, the Team Tempest program director, tells Aviation Week.



DF-TEMPEST_BAESystemsConcept.jpg

What results from the UK’s FCAS TI and Tempest work may look very different from the concepts shown so far, but it will make extensive use of locally developed technologies for future unmanned systems. Credit: BAE Systems Concept


“What we’re trying to do is produce something that delivers credibility in capability terms and also delivers prosperity for the nation by bringing in partnerships,” he says.

Team Tempest’s sphere, in addition to conceiving and developing technologies for the future aircraft, encompasses the educational needs of the program so that skills can be maintained throughout the program’s life.

“Part of the FCAS TI initiative and the industry contribution is about sustaining and building those teams that perhaps have not had a huge amount of demand over the past 10-15 years,” says Clive Marrison, industry requirements director at Team Tempest.

Britain’s last Defense Industrial Strategy, published in 2005, stated that the introduction of the Eurofighter and the JSF meant the UK did not need to envisage building a new fighter for more than 30 years because they were both likely to have long operational lives. Upgrade programs for the Typhoon and development of the Taranis unmanned combat air vehicle (UCAV) demonstrator have helped maintain those skills, but the Combat Air Strategy said that without a “clear indication of future requirements,” key engineering skills were placed at “greater risk.”

“Would we have lost those skills?” asks Marrison. “It is difficult to say, but without the investment both from industry and government in research and development over the last 10 years and now into FCAS TI and Tempest, we would not have been in such a good position to sustain and grow them again.”

In March, Team Tempest held an industry day for potential suppliers to understand the Combat Air Strategy and how they can feed into the program through government and the Team Tempest consortium. It attracted some 300 delegates from industry and government.

“It is not just about supporting the big four [BAE, Leonardo, MBDA and Rolls-Royce]; it is about supporting as much of the UK industrial and supply base as possible and bringing together as many of the clever minds, clever ideas and clever technologies as we can,” says Marrison.

The team is hoping that the work on the Tempest can ignite interest in aerospace technology in the same way the Concorde did during the 1960s. “Some of the people who will be involved on Tempest, potentially in service until 2080, have not been born yet,” says Holmes.

“Part of our intent here is to engage on a STEM [science, technology, engineering and mathematics] basis across the nation and bring something that gives them an iconic focus,” he adds.

There is no shortage of international interest as well. In late 2018, Sweden’s Saabconfirmed it was in a “deepening dialog” with the UK over joining the Tempest program. At the end of last year, the company carried out a 6 billion krona ($650 million) rights issue that CEO Hakan Buskhe said could provide funding for future work, including with the UK. The Italian element of Leonardo said it was actively urging the Italian government to join the British FCAS work. Several influential think tanks in Rome have also pressed Italy’s government to join one of the two European projects, primarily urging it to side with the UK option, arguing that Italy would be sidelined if it joined the Franco-German efforts.

Beyond Europe, the Tempest is one of several options being studied for Japan’s F-3 future fighter requirement to replace the indigenous Mitsubishi F-2, and the British government reportedly has also made offers to India, with which it has previously partnered on the Hawk and Sepecat Jaguar.

FCAS TI is currently focused on 60-70 technology projects, some lasting 1-2 years, others planned to last the full length of the program.

Some of the initial work underway on concepts and requirements is feeding what Holmes calls an “initial gauge,” supporting the opening stages of the acquisition process.

“It will start to deliver them with credible evidence about not only what the need but [also] about what we think we are able to do in an affordable way, with a focus on future adaptability and growth potential, so that we ensure we set ourselves up on a path for success,” says Holmes.

Part of that work is on industry sustainability; others have a more international flavor, such as several projects with France looking at communications and interoperability enabling future platforms to work together in a coalition.

Progress also is being made on development of a comprehensive open mission-system architecture designed to embrace avionics, sensors, connectivity and command-and-control systems. Definition of the architecture and component specifications are close to completion, and components are being built for testing. The architecture will not only underpin the potential for spiral development but also will allow partners or export customers to integrate their own mission-system fits quickly, as it has systematic reuse of software at its core.

With data becoming the currency of the battlefield, and future combat aircraft gathering up information from the electromagnetic spectrum and sensors, any future architecture likely will have to cope with terabytes of information, Holmes suggests.

The challenge will be turning that data into “decision-quality information and presenting it in a useful way,” says Holmes. The ability to do this will depend on how quickly the aircraft’s systems can be upgraded. “What we’re focusing on in some of our work is how we make that much quicker, much easier and much more affordable,” he says. Such an approach could blur the lines between generations of fighters, Holmes says.

While the Typhoon is considered a fourth-generation combat aircraft and the F-35 as fifth-generation, the Tempest is widely considered to be sixth-generation. However, the aircraft might not be considered as such when it enters service in the late 2030s.

“We have architected our capabilities in the past in such a way that you have to talk in generational terms, because they have a long life, and step changes in capability are more challenging to deliver,” says Holmes.

Nevertheless, Holmes points to the Panavia Tornado, which when it left service at the end of March was an almost entirely different platform from when it entered service. The Typhoon will be the same, he notes.

“What is needed for a future combat aircraft is a regular, constant drumbeat of flexibility and upgradability, allowing that capability growth to happen much more quickly . . . almost breaking down the generation nomenclature to much smaller bite-size chunks,” says Holmes.

The UK’s heavy investments in unmanned combat aircraft technologies will also be applied.

The UK Defense Ministry and industry, led by BAE Systems, has poured hundreds of millions of pounds into a series of technology initiatives that ultimately led to development of the Taranis UCAV demonstrator and almost paved the way for a joint UCAV demonstrator with France, until the plans were shelved last year.

Many of these underlying technologies for the UAVs and UCAVs are “very transferable across to the systems-of-systems approach for FCAS TI,” Marrison says.

Those programs resulted in technologies for signature awareness and control, mission-system architectures, low-probability-of intercept communications and the ability to rapidly—potentially in real time—upgrade software and mission capabilities and orders.

“None of the areas of development and design and technology that we saw through those unmanned aerial systems—be they at the design, information, mission-system or architecture level—are going to go to waste,” says Marrison.

Like its Franco-German counterpart, the future British combat aircraft will likely end up working with unmanned platforms, perhaps as so-called loyal wingmen or as attritable systems designed to deceive air defenses, such as the swarming systems revealed by Williamson in February and expected to enter service in the early-to-mid 2020s.

In recent years, the UK has been experimenting with adaptable payload bays, advanced materials and new approaches to cockpit development, including the use of augmented reality. It has also invested in cyber-resilience, making software dynamically reconfigurable and more difficult to hack.

Some of the successful technologies that could emerge from the Tempest could also end up in the Typhoon. Rolls-Royce is testing some of the technologies it envisions for a future Tempest powerplant on a Eurojet EJ200, which could result in improvements for the Typhoon. “We are working closely with Typhoon, working closely with the F-35 team as well, so we can spot those opportunities as and when they arrive,” says Holmes.

https://aviationweek.com/combat-air...ghter-program-draws-notice-potential-partners
 
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Nah we moved on bruv. Canada should join in as well, I spoke to someone from BAE at last year's RIAT and there's ongoing discussion with Canada and AUS, AUS wants to look beyond F-35.

Make the commonwealth great again :D Lets get brexit done and dusted first thing....sheesh what a mess.
 
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Make the commonwealth great again :D Lets get brexit done and dusted first thing....sheesh what a mess.

Yep, it was just a marriage of connivance, there's no alliance with such people. Our real allies are the five eyes (UK,USA,CAN,NZ,AUS).
 
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Yep, it was just a marriage of connivance, there's no alliance with such people. Our real allies are the five eyes (UK,USA,CAN,NZ,AUS).

Are you sure the UK can afford to leave the EU? If Brexit does happen in the true sense, what is imagined for Tempest will probably not reach fruition.
 
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Yes it can, it’s us who has the expertise why would Brexit affect that? Other countries are reliant on the U.K....Anyway off-topic.

The way the UK is begging for extensions, doesn't seem like Brexit is going to happen in its true sense or until at least the mid-2020s.

Are you aware that the UK has now been thrown out of any future participation in the Galileo navigation project and every single screw and bolt that belongs to the UK space industry is the property of ESA?

That's why I say, Brexit is way too expensive for a heavily debted UK and if it does happen in its true sense, Tempest is unlikely to get the required funds.
 
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The way the UK is begging for extensions, doesn't seem like Brexit is going to happen in its true sense or until at least the mid-2020s.

Are you aware that the UK has now been thrown out of any future participation in the Galileo navigation project and every single screw and bolt that belongs to the UK space industry is the property of ESA?

That's why I say, Brexit is way too expensive for a heavily debted UK and if it does happen in its true sense, Tempest is unlikely to get the required funds.

The treasonous PM is begging for extensions not the country. Her days are numbered.
As for Galileo the UK is building a rival system, no problem there.

Britain intends to build its own satellite navigation system after being frozen out of the EU's Galileo project by Brussels because of Brexit.

After months of fruitless negotiation over the space programme and after sinking £1.2 billion into the project, Theresa May said the UK would aim to build its own system instead.


https://www.telegraph.co.uk/news/2018/12/01/galileo-britain-set-build-rival-satellite-system/

However they face a massive problem as we remove them from intelligence networks and other high end projects.
Brexit will be a slight hit but the UK is powerful enough to see it through and emerge stronger, and as for debt, the European states are in far worse a shape, with smaller economies e.g. France, Spain, Belgium etc. Our debt is easily serviceable as well.

Now please stay on-topic thank you.

Pakistan should join the program!

Needs funds bro which Pakistan doesn't have. Anyway better to jump on board with China.
 
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Excellent article. One of the few good decisions in the UK. We must keep France/Germany away from Tempest at all costs and, not get involved in their FCAS project at all ever.
 
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Tempest will be a massive success.

I have see more than 500 planes being built in total with the bulk being exported.
 
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Ahh, they invited India..y’all think India is going to go down for it? I’m not sure whether this is an air superiority fighter, but due to the recent fallout over the su 57 this option might be considered.
 
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https://nationalinterest.org/blog/b...empest-jet-fighter-coming-dethrone-f-35-86941

Britain's Stealth Tempest Jet Fighter Is Coming to Dethrone The F-35
Think lasers and hypersonic missiles.

by Sebastien Roblin
Key point: It's an ambitious, long-term plan.

The Tempest was unveiled alongside a new “Combat Air Strategy” document marking the UK’s reorientation to preparing for high-intensity conflicts and the danger posed by modern anti-aircraft weapons. However, the document largely focuses on industrial and financial matters, particularly on keeping British military aerospace sector sustainable despite constrained defense budgets and the steadily increasing cost of high-performance platforms like the Type 26 frigate.

1440px-Tempest_DSEI_2019.jpg


With a flourish of a silk curtain at the Farnborough Air Show on July 16, British defense secretary Gavin Williamson unveiled a full-scale model of the Tempest, the UK’s concept for a domestically built twin-engine stealth fighter to enter service in the 2030s. The Tempest will supposedly boast a laundry list of sixth-generation technologies such as being optionally-manned, mounting hypersonic or directed energy weapons, and capability to deploy and control drone swarms. However, it may also represent a Brexit-era gambit to revive defense cooperation with Germany and France.

London has seeded “Team Tempest” with £2 billion ($2.6 billion) for initial development through 2020. Major defense contractor BAE System is leading development with the Royal Air Force, with Rolls Royce contributing engines, European firm MBDA integrating weapons, and Italian company Leonardo developing sensors and avionics.

Design will supposedly be finalized in the early 2020s, with a flyable prototype planned in 2025 and production aircraft entering service in 2035, gradually replacing the RAF’s fourth-generation Typhoon fighters and complementing F-35 stealth jets. This seventeen-year development cycle is considered ambitious for something as complicated and expensive as a stealth fighter.

Recommended: Air War: Stealth F-22 Raptor vs. F-14 Tomcat (That Iran Still Flies)

Recommended: A New Report Reveals Why There Won't Be Any 'New' F-22 Raptors

Recommended: How an ‘Old’ F-15 Might Kill Russia’s New Stealth Fighter

The Tempest mockup suggests a relatively large single-seat, twin-engine delta-wing fighter with a cranked trailing edge and two vertical stabilizers (tail fins) canted inwards as on the F-22 stealth fighter. According to analyst Justin Bronk, these last improve maneuverability and suggest emphasis on kinematic performance over pure stealth. The larger airframe also implies a desire for greater range and weapons load than an F-35 can muster in stealth mode. However, reportedly no performance parameters such as maximum speed, range, radar cross-section etc. were stated in the presentation.

Rolls Royce boasts that the Tempest’s stealthily recessed adaptive-cycle turbofans will be made of lightweight composite materials, feature superior thermal management and digital maintenance controls, and generate large quantities of electricity through magnets in the turbine cores.

Surplus electricity may be of particular interest for powering directed energy weapons, which could range from lasers to microwaves. The U.S. Air Force plans to test a defensive anti-missile laser turret for its jets in the early 2020s, but the Tempest presentation mentions using direct energy weapons for ‘non-kinetic’ purposes, which may imply disrupting or damaging adversary sensors.

The Tempest is to have a modular internal payload bay which can be reconfigured for various sensors or weapons. A Meteor long-range air-to-air missiles and a SPEAR-3 cruise missile were displayed next to the mock-up, and compatibility with next-generation “Deep Strike” missiles is also listed. The presentation at Farnborough also lists hypersonic missiles (which travel over five times the speed of sound, making interception extremely difficult) and swarms of deadly drones as offensive capabilities. To ease the workload on the pilot, the aircraft would utilize artificial intelligence and machine learning to optimize the drone’s behavior.

Like the F-35, the Tempest would employ a diverse array of passive and active sensors, and a Tempest pilot may able to gaze “through” his or her own plane using a helmet-mounted device, which may also replace conventional cockpit display panels. “Cooperative Engagement” technology would also allow a Tempest to fuse sensor data with friendly aircraft, ships or ground forces using “reconfigurable” communication systems and data links. This could allow one platform to hand off sensor data to another platform, which could then launch missiles without exposing itself.

However, the F-35’s networked computers have aroused fears that it is vulnerable to hacking—thus the presentation lists “resilience to cyberattack” as a characteristic of the Tempest. This could pose additional challenges given plans for the Tempest to be “optionally manned”—which means it can be flown remotely without an onboard pilot if preferred. Unmanned Combat Air Vehicles are generally thought to be the future of air warfare, but air forces so far are opting to test the waters by contemplating optionally-manned fighters. However, though optionally manned fighters offer a means to avoid putting pilots at risk on dangerous missions, they still come with the cost and performance disadvantages of manned aircraft.

The Tempest was unveiled alongside a new “Combat Air Strategy” document marking the UK’s reorientation to preparing for high-intensity conflicts and the danger posed by modern anti-aircraft weapons. However, the document largely focuses on industrial and financial matters, particularly on keeping British military aerospace sector sustainable despite constrained defense budgets and the steadily increasing cost of high-performance platforms like the Type 26 frigate.

In any context, seeing through the Tempest project to completion would prove daunting. The Tempest itself is a successor to the BAE Replica, a two-seat British stealth-fighter concept that was abandoned in 2005, though BAE leveraged technology used in its creation to become a major partner in the F-35 program. Currently, the UK is currently receiving forty-eight F-35B stealth jump jets for its Queen Elizabeth-class carriers, and theoretically plans to order another ninety F-35s for the Royal Air Force. While an RAF officer at Farnborough claimed Tempest would “have no impact” on F-35 acquisitions, it is difficult to foresee where else in the budget the money would come from.

However, at this stage the Tempest is surely a political game piece in a Brexit-bound UK, which risks being isolated from European markets. It happens that only a few months earlier, Germany and France trumpeted that Dassault and Airbus would work together on their own sixth-generation stealth jet program, Future Combat Air System—notably without inviting British companies, though their eventual participation was not ruled out, likely depending on how Brexit plays out.

In truth, both stealth-fighter programs could easily prove prohibitively expensive without buy-in from multiple countries. Two billion pounds is a lot of money, but is far less than one-tenth of what a successful Tempest program would cost. The preferred scenario might be for a “European” stealth fighter combining the two stealth-fighter programs. A glance at the FCAS’s projected capabilities shows they are broadly similar to those of the Tempest.

The Tempest therefore may not only be an attempt by London to retain a domestic aerospace sector capable of building stealth jets, but also part of an elaborate courtship to entice EU nations into reconsidering joint-development of one. Indeed, Airbus Defense CEO Dirk Hoke made a comment “welcoming” the Tempest program. Possible British partnership with Sweden—producer of the capable Gripen fighter—is also frequently speculated for the Tempest, and it’s worth noting that BAE recently signed on to assist Turkish TAI in producing a TF-X stealth fighter.

The UK, France and Germany have all now proclaimed their intent to develop sixth-generation stealth jets and backed that up with initial investments. However, it will likely be a while before we can tell whether the respective governments can sustain the long-term financial outlays, international cooperation, and technically challenging development processes to produce Europe’s first stealth jet.
 
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