Tag: Storm Shadow

The Rocketeers

On By Corporal FriskIn Air, Army, Finland, Naval5 Comments

In the midst of the strategic acquisitions it is easy to get locked in on the choice of platform, whether it is the HX fighter or the Pohjanmaa-class corvettes. But someone has to supply the teeths to make them able to bite, and this is where companies such as MBDA come in to the picture.

© Dassault Aviation - V. Almansa
A Dassault Rafale being armed. Picture courtesy of: © Dassault Aviation – V. Almansa

MBDA is yet another of the numerous joint ventures created in Europe in a time when not even the major regional powers can muster enough of a demand to warrant developing their own high-performance weaponry. However, the company is something of an outlier in that several of the products they have on their shelf have a good reputation both when it comes to project management and the cost/capability ratio of the final product.

Arming HX

Our basic philosphy is that we are platform agnostic, we serve everybody

MBDA has a product integrated or somewhere down the propsed upgrade paths on most HX-candidates. The flagship is without doubt the very-long range Meteor, largely held to be the most capable weapon in beyond-visual range engagments against fighter-sized targets currently operational. The introduction in service aboard the JAS 39C Gripen as part of the MS20 upgrade “changed the behaviour over the Baltic Sea”, both on the part of the Swedish fighters carrying them as well as for the Russian aircrafts they meet there. Courtesy of the ramjet engine and the 100+ km range, it provide “at least three times the no-escape zone” of current medium range missile (read: AIM-120C AMRAAM). The missile will find itself under the wings and fuselages of the Rafale and Typhoon within the next few years in addition to Gripen (both Charlie and Echo), creating an interesting dilemma for a manufacturer supplying highly complex equipment which is to be integrated into competing platforms. MBDA’s solution is to assign each aircraft and country it’s own manager, making sure that there are watertight bulkheads between any platform specific information entering the company.

For Gripen in HX, that man is Peter Bäckström, MBDA’s director exports for the Nordic region. An engineer by trade, he worked on a number of subsystems for the Meteor and TAURUS KEPD 350 before moving into sales. He has a clear view about what made the Meteor different from so many other projects. “It was born out of a requirement, a need for a 100+ km capable missile”, he notes, before continuing. “Game changer is a worn-out term, but this really is. It establishes a new set of rules.”

For the Gripen E, the Meteor and the increased number of hardpoints changes what has often been decried as a light fighter into a serious BVR-force, with a maximum load of seven Meteor and two short-range IRIS-T on the wingtips. While the maximum load might not be suitable for everyday carriage (if nothing else then due to budgetary constraints), it still places the air-to-air weapons load more or less on par with e.g. the Rafale.

Meteors
The fulls-scale Gripen ‘Echo’ mock-up showing three belly-mounted Meteors. Source: Own picture

But Meteor is far from the only thing MBDA has to offer for HX. ASRAAM is also found in their arsenal, a rather unique missile in being designed for ranges which are usually the realm of radar-guided ones. Given this, I have to ask Bäckström if there is any truth to the rumours that it can outrange the AIM-120 AMRAAM. Bäckström just smiles, and simply quips “It’s a very good missile”. In roughly the same class, the MICA-family (with both IR- and radar-guided versions) is set to be upgraded within the next decade. Unlike the Meteor, from the viewpoint of HX MICA is tied to Rafale. If Finland buys Rafale, we will likely get the MICA as well, but if any other aircraft takes home HX the MICA likely won’t make it’s way into the Finnish inventory (though it isn’t ruled out).

For heavy cruise-missiles, there’s not one but two options. The best known is likely the combat-proven SCALP/Storm Shadow, sporting inertial/GPS/terrain reference guidance and an IIR-seeker for terminal guidance. The different parameters which can be set include fusing (air burst, impact, or penetration) and dive angle. The missile is designed to feature a very high level of automation on the part of the pilot, meaning that it is suitable for single-seat fighters as well as twin-seaters.

37569094745_50d78594db_k
A TAURUS KEPD350 being loaded onto a Sapnish F/A-18 Hornet (C.15). Source: Ejército del Aire Ministerio de Defensa España via Flickr (CC BY-NC 2.0)

The Taurus KEPD 350E is the other alternative, being built to a different requirement for the German and Swedish Air Forces (though Sweden is yet to acquire and put the weapon into operational use). The ‘350’ in the name comes from the requirement of 350 km range in all conditions at all drop heights. In practice, this means that the range when dropped from height is well above 500 km. It can be dropped from as low as 100 meters, which often is little more than a gimmick for stand-off weapons. However, for Finland this might actually be a useful feature, as there is value in staying below the radar horizon of the Russian ground based air surveillance radars. The 480 kg MEPHISTO penetrating warhead with pre-charge is also described in grand terms.

This is a real penetrator, not a ‘put down it down in a hole and blow it up’-warhead

TAURUS actually did compete for the contract which was won by the JASSM regarding integration into the Finnish Air Force F/A-18C Hornets. It is hard to tell what made the TAURUS come in second back then, whether there were particular political considerations or ease of integration (US fighter – US missile, though ROKAF has opted for the TAURUS for their F-15K Strike Eagles and Spain is integrating it on the Hornet) which played into the decision, or whether it was purely based on performance of the missile in question. In any case, the TAURUS is set to be integrated on Typhoons and not completely unlikely to appear on the 39E Gripen, so it wouldn’t be altogether surprising for it to fill that JASSM-shaped void after the retirement of the Hornet.

Ground-/Ship-based

While the airborne systems grabs all the attention, the question of air defence system for the Pohjanmaa-class (Squadron 2020) is still unresolved. The last of the major weapon systems open, it will pit ESSM against the CAMM-ER (Barak 8 has been mentioned in the speculations, but is likely too large. I-Derby might be on offer instead). CAMM and CAMM-ER shares some of the same ancestry as the ASRAAM, but has developed into a rather different beast. The weapon feature a newly developed radar seeker, and is able to be quad-packed into a Mk 41 (or the smaller and lighter ExLS) just as the ESSM. From there the CAMM+family is soft-launched, and sports ranges in the 25 to 45 km class, depending on exact version and target. Interestingly enough, packed into the launcher it is completely maintenance free for a decade. This also ensures that once Finland has gotten the missiles, it is possible to operate them completely independently from the supplier. Or as Bäckström describes it:

A sovereign supply solution.

The weapon is already operational with the Royal Navy (and has been sold to other nations), but perhaps even more interesting is that the British Army performed their first firings of the Land Ceptor (known as EMADS in mainland Europe) earlier this year. If MBDA manages to get the CAMM-ER chosen as the main air defence weapon for the Finnish Navy, MBDA could suddenly claim synergy effects in the race for a longer-ranged ground-based air defence system for the Finnish Army. So far the ability of the NASAMS systems (already in Finnish service as the ITO12) to fire the longer-ranged AMRAAM-ER has made it a favourite, but questions has also been raised if that would mean putting too many eggs in the same basket. Notably the CAMM-ER would also provided the altitude coverage the Finnish Army is looking for following the retirement of the Buk-M1. A Land Ceptor solution able to use a joint missile stock with the Navy’s corvettes might suddenly be a very interesting proposition.

Land ceptor
Land Ceptor during test fires in Sweden earlier this year. The time lapse shows the cold launch sequence in which the missile is flung upwards out of the tube, and only then firing its engine. Source: UK MoD (Crown copyright/OGL)

Another interesting thing to note is that MBDA is quick to point out that the missile would fit nicely into the Swedish organisation as well, as an all-weather mid-tier missile between the Patriot and the IRIS-T. While currently all light is on the Patriot-deal, it is clear that two understrength air defence battalions won’t provide the air defence coverage needed by the Swedish Army, and MBDA raising the benefits of a joint Finnish-Swedish buy (either of whole systems or missiles) might be worth keeping an eye on. Normal caveat about companies liking to market that they are in negotiations/close to a deal applies…

The draft text has been read through by MBDA, to make certain that it only contain non-classified information and general comments. Minor changes followed as part of the feedback received from them.

Syrian Strikes

On By Corporal FriskIn Middle East16 Comments

“They had three buildings there [Barzah scientific research center] and a parking deck,” McKenzie said.
“Now they don’t.” via USNI.

Davo9GdXcAI0LBF.jpg large
French frigate firing off one of the three MdCN cruise missiles that were part of the strike. Source: Marine Nationale

As information about yesterday’s strikes against targets in Syria has been slowly to trickling out throughout the weekend, it is by now possible to piece together a picture of the raid. Perhaps the single most informative piece was the press briefing held by Pentagon.

In short, the following units were involved:

Armée de l’Air

DatZZINXcAAyMtd
Two-seater Rafale B launching with twin SCALP EG cruise missiles under the wings. Source: French MoD

5x Dassault Rafale, launching 9 SCALP EG cruise missiles

4x Mirage 2000-5, escort

E-3FR AWACS and KC-135R/C-135F aerial refuelling aircraft

All aircraft operated out of bases in France

Royal Air Force

Screenshot 2018-04-14 at 23.59.32
Tornado GR.4 sporting two Storm Shadow cruise missiles under the fuselage. Source: British MoD / © Crown copyright 2013 (unmodified news item)

4x Tornado GR.4, launching 8 Storm Shadow cruise missiles

?x Typhoon FGR.4, escort

Operating out of RAF Akrotiri on Cyprus

USAF

Screenshot 2018-04-15 at 00.09.17
B-1B preparing to launch for the raid from Al Udeid Air Base, Qatar. Source: US AFCENT

2x B-1B, launching 19 AGM-158A JASSM cruise missiles

?x F-16, escort

?x F-15, escort

?x F-22 Raptors, escort

Numerous supporting assets, including RQ-4B Global Hawk UAV’s for intelligence gathering, E-3 AWACS, KC-135 and KC-10 aerial refuelling aircraft, and likely a single E-11B relay aircraft

Bombers operating out of Al Udeid AB in Qatar, fighters from both Al Udeid and European bases

Edit: updated information corrected the JASSM version from -ER to the baseline version which is also in Finnish use, and included the presence of F-22’s as escort.

USMC

VMAQ-2 Transits Souda Bay
No image of the EA-6B from VMAQ-2 which was part of the raid has been released as far as I know. Here is a similar aircraft from the same squadron during a stopover in Crete, Greece, back in 2007. Source: U.S. Navy photo by Mr. Paul Farley via Wikimedia Commons

1x EA-6B Prowler, ECM escort

Operated out of Ahmad al-Jaber Air Base, Kuwait

Marine National

fremm-aquitaine-3-c-marine-nationale
FREMM-class frigate Aquitaine (D650), likely the vessel that fired the MdCN missiles. Source: Marine National

1x FREMM-class frigate, launching 3 MdCN

Operating in the Mediterranean

US Navy

Screenshot 2018-04-15 at 08.55.51
Ticonderoga-class cruiser USS Monterey (CG-61) launching TLAM missiles from the Red Sea. Source: US Navy via USNI

1x Ticonderoga-class cruiser

1x Arleigh Burke-class destroyer

Operating in the Red Sea, launching a total of 37 TLAM cruise missiles

uss_higgins_ddg-76
USS Higgins (DDG 76) which launched the strikes from the Persian Gulf. Source: US Navy/Photographer’s Mate 2nd Class Frederick McCahan

1x Arleigh Burke-class destroyer, launching 23 TLAM cruise missiles

Operating in the Persian Gulf

USS California at sea during sea trials.
Virgina-class SSN underway. Source: Chris Oxley/U.S. Navy via Wikimedia Commons

1x Virgina-class attack submarine, launching 6 TLAM cruise missiles

Operating in the Mediterranean

Alert readers will note that the total amount given is 105 cruise missiles (36 air-launched, 63 ship-launched, and 6 sub-launched), coming in two above the 103 given by Russian sources. The missiles hit the following targets:

Barzah/Barzeh Scientific Research Center

Situated in the western parts of Damascus, the center was hit by 57 TLAM and 19 JASSM missiles.

Sputnik published a video reportedly shot at the scene, which seems to match the location below. It also matches the description given by the Pentagon, in that three large buildings have been completely destroyed.

Interestingly, the dual weapons used says something about the nature of the target. While the TLAM has a rather standard 1,000 lb (454 kg) class blast/fragmentation warhead (i.e. it explodes and creates shrapnel), the JASSM sports what Lockheed Martin calls a “2,000-pound [908 kg] class weapon with a dual-mode penetrator and blast fragmentation warhead” (i.e. it is made to penetrate hardened structures such as bunker before then exploding and creating shrapnel). Another thing to note is that the number 57 does not correspond to any possible combination of the salvos from individual ships, meaning that at least one vessel targeted two different sites.

Him Shinsar chemical weapons storage facility

unnamed
BDA pictures of the Him Shinshar. Source: Pentagon

The bunkers and facilities used for storing chemical weapons were hit by 22 weapons, these being 9 TLAM, 8 Storm Shadow, 2 SCALP EG, and 3 MdCN. This clearly shows the different nature of the target compared to the research center, as the number of missiles is much smaller, but also the fact that 13 out of 20 missiles were bunker-busting Storm Shadow/SCALP EG/MdCN (which are simply different local designations for the same missile, with MdCN being the ship-launched version). The Pentagon briefing described the target as ‘destroyed’, and while it is harder to verify when it comes to underground installations, significant damage is visible in the satellite imagery posted since.

Him Shinshar command facility

The final target was a command facility associated with the Him Shinshar site. This was hit by the last 7 SCALP EG. Pentagon described the facility as having taken ‘damage’, as opposed to the two others which were rated as ‘destroyed’. It is unclear if this is a failure, or simply representative of the different nature of the target. Command facilities might be able to continue to function to some extent even if key buildings are wiped out, which is not the case with a storage facility in which the storage buildings are hit.

In any case, satellite imagery shows what looks like two larger and one smaller hardened building having been targeted and destroyed.

Conclusions

Despite wild claims of the majority of the missiles having been intercepted and the rest having missed, it is clear that the raid was an unequivocal success on the tactical level. The targeted sites have all suffered heavy damage. If the description of the nature of the targets is correct, it is highly possible that the use of sarin has been made harder by the strikes. Obviously, this does not stop the regime from using a whole number of other ghastly weapons and tactics, including barrel bombs, starvation through sieges, and quite possibly industry grade chlorine (which has been featured in numerous attacks in Syria).

Notable is also the fact that several of the weapons and systems used were making their combat debuts. These include the JASSM and MdCN, as well as the Virgina-class SSN. From a Finnish viewpoint, the combat launch of JASSM (albeit not in the exact version used by the Finnish Air Force) was certainly of interest. However, it should be noted that ‘damaging’ a single command facility virtually undefended by air defences required 7 missiles of the same class as the JASSM, something which puts the Finnish acquisition of (a maximum) of 70 JASSM into perspective.

When it comes to the defences, it is clear that the talk of the S-400 deployment in Syria creating an impenetrable A2/AD-bubble stopping western strikes was not correct. While many of the earlier Israeli strikes had taken place in areas which present difficulties for the S-400 (and supporting shorter-ranged systems) to see and intercept the targets, the strike waves approaching over the eastern Mediterranean would be more or less the perfect scenario for long-ranged SAM-systems, and is very similar to the setup of systems operating from Kaliningrad which often are described as being able to deny NATO access to the Baltic Sea. While it likely was political will that stopped the Russian air defence systems from being activated, the Syrians did their best, with around 40 missiles having been reported by Pentagon as fired. While it is not impossible that some of the cruise missiles were intercepted, it is clear from the pictures linked above that even this barrage of air defence missiles was unable to serious lessen the damage suffered by the Syrians. A significant issue was likely that all missiles struck their targets within an extremely short time span, leaving the individual air defence batteries saturated.

Cruise Missiles for HX

On By Corporal FriskIn Air, Finland14 Comments

From the outset the Finnish Defence Forces have been stating that they are not replacing a multirole fighter (and thus buying a new one), but instead they are replacing the capabilities of it (and thus buying a new one to provide the same capabilities as the old one). This might look like semantics, but was suddenly brought to the forefront when the RFI for weapons and external sensors was sent out.

Short background: the current Finnish Hornet-fleet sport five different weapon types (plus an internal gun). The AIM-9 Sidewinder (in L- and X-versions) provide short-range air-to-air capability, while the AIM-120C provide medium-range air-to-air capability. With the MLU2 air-to-ground weapons have been brought in as well. The JDAM-series of guidance kits are fitted to ordinary 225, 450, and 900 kg bombs (official designations then being GBU-38, GBU-32, and GBU-31 respectively). These use a combination of internal navigation (INS) and GPS to provide accurate hits on the target. The main problem is that hitting moving targets doesn’t really work, which have prompted the creation of other guidance kits sporting laser guidance in combination with INS and/or GPS. These have however not been acquired by Finland. Also, the range is short, and in practice the fighter has to overfly the target. Still, the JDAM is cheap and reliable, and has proved a favourite in Afghanistan and the Middle East. Time will tell if the recent GPS-jamming incidents will cause issues for weapons which rely on GPS for navigation and/or target acquisition.

17991321_1397309040333071_9165776923558989985_o
Finnish F/A-18C Hornet upgraded to the MLU2-standard displaying AIM-9X and AIM-120C air-to-air missiles as well as JDAM and AGM-158 JASSM air-to-surface weapons. Source: Ilmavoimat
A solution to getting more range out of a bomb is to fit it with wings, which leads to the AGM-154 JSOW. The JSOW feature folding wings which deploys after launch, letting the weapon glide towards the target. Three different versions are found, of which two hold submunitions (‘cluster bombs’), while the third is a single BROACH-warhead. The BROACH feature a two-stage warhead where a small(ish) shaped charge first blows a hole in the target, which the main warhead the flies through and detonates on the inside of (see this Australian clip of a live-fire test, the slow-motion entry is found at the 0:54 mark). For improved accuracy the AGM-154C with the BROACH feature an infrared seeker for terminal guidance. In Finnish service the JSOW is something of an enigma, with both the number of weapons and version acquired being unclear to me. I had originally thought the JSOW had been acquired in a very limited number for test and evaluation purposes only in case the JASSM wouldn’t be cleared for export, but during Ruska17 it was mentioned as part of the Finnish arsenal. It seems likely that a small number of AGM-154C JSOW are found as a cheaper mid-range solutions for targets which might be too well-defended for a JDAM-run. The big problem with the JSOW is that as it lacks an engine, its range is highly dependent on the speed and height of the aircraft when launched.

The silver bullet in the Finnish airborne arsenal is the AGM-158 JASSM. The JASSM feature a 450 kg penetrating warhead in the form of the WDU-42/B, and is powered by a small jet engine giving it significantly longer range than the JDAM and JSOW. The cruise missile is stealthy, and navigates by combining GPS and INS during flight, before switching on a IR-seeker for terminal guidance. It is a smart weapon even by modern standards, and dives towards the target at different angles depending on the amount of penetration needed (steeper for harder targets such as bunkers). All this also makes the weapon rather expensive, with the DSCA listing the Finnish request for up to 70 weapons at an estimated value of 255 million USD.

These are the capabilities to be replaced: the ability to shoot down enemy aircraft at different ranges, and to strike hard but not necessarily moving targets at all ranges.

It is important to remember that the weapons work already before release, in that any potential attacker has to calculate with the Finnish Air Force being able to launch a strike taking out key installations such as bridges and command bunkers deep behind enemy lines without ever being close to these. The psychological effect of the nagging knowledge that when getting inside a few hundred kilometers of the frontline you are always under threat should not be underestimated.

160323-N-ZZ999-110
An F-35C Lighting II conducts separation tests of an AGM-154 JSOW. The white dots are photo calibration markings. Source: U.S. Navy photo by Dane Wiedmann via Wikimedia Commons
The press release on the RFI was rather bland, but Jarmo Huhtanen of Finnish daily Helsingin Sanomat had an interesting interview with engineering brigadier general Kari Renko. Renko dropped a very interesting comment, which will have huge consequences for the HX-program.

We won’t go down the route of starting to develop the integration of machine and weapon. We’re buying missiles, their documentation, transportation containers, training, and so forth.

He also mentions that the weapons and sensors will account for roughly a tenth of the total budget, i.e. in the neighbourhood of 700 million to 1 billion Euros. A second interview with program manager Lauri Puranen (retired FiAF major general) in Finnish paper Talouselämä takes a slightly different view, putting the total weapon cost at 10-20% of the total value, i.e. 700 million to 2 billion Euros, though he notes that there is no idea in buying the whole stock immediately upon ordering the fighters, as the weapons have limited shelf life (this might explain the difference their estimates). This sounds about right for providing a small stock of short- and medium-ranged air-to-air missiles and a few different air-to-ground weapons. A short mention of DSCA cost estimates for similar weapons from recent years.

It must be said that this is a very Finnish way of making defence acquisitions. Buying just behind the cutting edge, at the (hopefully) sweet spot where the R&D work is done and the true costs are known while still modern enough to be considered high-tech. The package above comes in at 1.08 billion Euros and would be something of a bare minimum (e.g. 64 fighters would get an average of 4.7 AMRAAMS each, meaning that after the first wave was launched there wouldn’t be any reloads to talk about). The Finnish order is also likely to be more air-to-air heavy than the mix above would be.

It also means that if Renko (who have his roots in the Air Force) is to be taken literally, the HX-field will be turned upside down.

The air-to-air part is no problem, all contenders have sufficient missiles integrated. Guided bombs are also found, though in most cases not JDAM’s but rather laser or hybrid laser/GPS/INS-guided ones. It is questionable if the JSOW is actually needed as the Goldilock-solution between a guided bomb and a cruise missile, and if it is a priority to be bought at the beginning of the project. In any case, it is fully integrated on the F/A-18E/F Super Hornet, while the Rafale feature the AASM ‘Hammer’-series of modular guidance/propulsion kits which include interesting versions that also exist in the middle ground between guided bombs and ‘true’ missiles.

© Alex Paringaux
A Rafale C in flight equiped with wingtip Mica IR air-to-air missiles, 2000 ltr drop tank on inboard station and SCALP-EG (Storm Shadow in British service) cruise missile on the outer station. Source: © Alex Paringaux courtesy of Dassault Aviation
The big dealbreaker is the cruise missile. If Renko means business, that the HX need to have a long-range cruise missile with a serious penetrating warhead ready by the time it reaches full operational capability in the 2029-2031 time span, two of the top-contenders have a problem at their hands.

The Rafale and the Eurofighter Typhoon both sport the joint-French/English SCALP/Storm Shadow. This is a highly potent weapon in the same class as the JASSM, including a stealthy design, and is combat proven over Iraq, Syria, and Libya. The Rafale already carry the weapon, while the Typhoon is about to get it as part of the P3E upgrade currently underway. As such, both should welcome the news that this is a requirement.

The F/A-18E/F Super Hornet just might get a pass, as it sport the Harpoon-based SLAM-ER with a 360 kg WDU-40/B titanium-reinforced penetrating blast warhead. The SLAM-ER feature many of the same capabilities as the JASSM (though being lighter and shorter-legged), and is the US Navy’s answer to the gap created in their inventory when they dropped out of the JASSM-program. The fighter is also in the process of getting the AGM-158C LRASM, the anti-shipping derivative of the JASSM, which might offer a possibility to fast-track AGM-158A/B integration once complete.

JAS 39C/D Gripen have no long-range ground attack capability. This will be remedied by the upcoming Rb 15F-ER which while developed from the RBS15F anti-ship missile will also have a secondary land-attack capability. However, the weapons main use and roots are shown by the warhead which is a 200 kg blast fragmentation one. Excellent for ships, but despite having delayed fusing options this likely lacks the penetration to be able to take on hardened targets.

The F-35 is the other big question mark, with the JASSM not confirmed for the fighter. It has been cancelled for the Block 4, with one spokeswoman saying they “expect it” in the Block 5 timeframe which “is expected to begin in 2024”. The scope of Block 5 is still undecided, with one aviation journalist describing it’s status as “just a collection of tech that didn’t make the cut for Block 4“. RAF/RN had originally planned for the Storm Shadow to equip their F-35’s, but has since dropped it. As such, the F-35 have no confirmed cruise missile for hardened targets at the moment. The one missile which is confirmed is the JSM, which like the Rb 15F-ER is an anti-ship missile with secondary land-attack capability, and which also feature a 200 kg combined blast and fragmentation warhead. Manufacturing partner Raytheon is happy to call it “the only fifth-generation cruise missile that will be integrated on the F-35”, which is likely more of a marketing line than an indication of the company sitting on information that the JASSM has been cancelled for the F-35.

Taurus KEPD
Taurus KEPD 350 displayed together with the JAS 39D Gripen at the Tour de Sky airshow in Kuopio, Finland, back in 2016. Source: Own picture
The answer to the Gripen’s woes would have been the Taurus KEPD 350. The joint Swedish-German missile is carried by German Tornadoes, Spanish EF-18 Hornets, and (soon) South Korean F-15 Eagles. Preliminary flights have been undertaken by the Gripen (and the Eurofighter for Spanish and German needs), but the missile was never integrated on the 39C/D, and it’s future as part of the 39E’s arsenal is still unclear. The Swedish then-government/now-opposition signalled back in 2014 that they “want cruise missiles on the new Gripen”, though it has never been clear whether this means the RBS15F or some heavier land-attack missile. In any case, no firm order for KEPD 350 integration onto the Gripen has been made, and it is difficult to see a Brazilian requirement for it. The KEPD 350 is however actively marketed as an option for the Gripen by Saab.

While Puranen’s cost estimate of the weapon package might be higher than Renko’s, he is of the same opinion when it comes to integration costs.

Our position is that the aircraft suppliers are responsible for the integration of the weapons found in their offers, and that the costs for this are included in the offer.

This leaves Lockheed-Martin and Saab with something of a conundrum. Unless JASSM or another suitable missile is confirmed for integration before 2030 by another paying customer, and unless this confirmation comes before the final offers are made in 2021, the companies will have to include the complete integration costs when calculating their bids to Finland. Obviously the majority of the costs will be funneled back directly to their HX-bid (TANSTAAFL), while the Rafale and the Typhoon will be able to make their offers without this additional cost (or at the very least with a significantly reduced one). It also raises the question which missile they should choose to offer. While there has been much speculation about keeping the JASSM’s, their shelf-life does in fact end about the time the Hornets are withdrawn.

JASSMed
Gripen E model in Finnish colours displayed by Saab at a Finnish air show. The model is armed with Rb 15F, Irist-T air-to-air missiles, and JASSM. Source: Own picture
Saab has been marketing a willingness to integrate the JASSM if Finland requests so. However, if they are free to offer the long-range strike option in whichever form they want, doing so by integrating their own Taurus instead of Lockheed-Martin’s JASSM might certainly be tempting, especially as the Taurus offer some unique gimmicks such as the ability to detonate at a specific pre-set floor. Another possible solution which might be tempting for both manufacturers would be to develop penetrating 500-lbs warheads for the JSM and Rb 15F-ER, as this might turn out to be a cheaper solution than integrating a completely new weapon. Still, when it comes to penetrating warheads, mass matters, and it is clear that this would be an inferior solution compared to heavyweights such as the JASSM, Storm Shadow/SCALP, or Taurus.

Under Scottish Skies – The Path Forward

On By Corporal FriskIn Air4 Comments

‘Seek and Destroy’. That’s the motto of the RAF’s 41(R) test and evaluation squadron currently residing at RAF Coningsby. Operating six Typhoons (as well as a few Tornados set for retirement next year), the squadron is responsible for testing updates to RAF’s Typhoons and looking into the best ways of employing new capabilities in the field, before these are rolled-out to the frontline squadrons of the service. This summer, the squadron will start testing a new and highly destructive tool, as the first operational Typhoons will receive the P2E-upgrade (Phase 2 Enhancements). The most obvious change to RAF Typhoon operations this brings is the introduction of the Meteor very-long range air-to-air missile, though internally the there will also be major improvements to the data link and sensor fusion.

Smith

“Meteor [on Typhoon] will feature a two-way datalink, which is quite different to Rafale”Paul Smith, BAE Systems Test Pilot

Meteor is something both RAF and BAE Systems like to talk about. RAF Lossiemouth station commander group captain Paul Godfrey notes that the real life roll-out has been preceded by a significant amount of test in simulators, focused on looking into the tactics the new weapon will allow for. “I am hugely looking forward to it”, he says. BAE test pilot Paul Smith shows a slide highlighting the different velocity pattern of the ramjet-driven missile compared to traditional rocket-powered ones. Rocket engines accelerate faster out of the gate, but once the rocket has burned out the missile will coast towards the target, meaning that long-range shots will have relatively little energy left for maneuvering close to the target. The Meteor’s ramjet engine is able to cruise at an economical setting and then throttle up when it closes in on the target, giving it a huge boost to the no-escape zone compared to rocket-powered missiles. It is no surprise that the Meteor is set to complement or in some cases replace the AIM-120 AMRAAM and MICA medium- and long-range missiles on all HX-contenders with the exception of the F/A-18E/F Super Hornet, though there are differences to exactly how it is being implemented. Both the Eurofigher and the Gripen will feature a two-way datalink, which allows the missile to send data back to the aircraft, further increasing accuracy as well as situational awareness.

Godfrey talking

“We already know how we’ll operate the Meteor”GROUP CAPTAIN PAUL GODFREY OBE, STATION COMMANDER AT RAF LOSSIREMOUTH

But P2E is only part of what RAF calls the the Centurion staircase, a series of phased enhancements aimed at making sure no capabilities will disappear with the retirement of the Tornado in 2019. The P3E(a) is in the works for RAF, which will bring the Brimstone to the Typhoon. Officially described as a low-collateral high precision air-to-surface weapon, the anti-tank/anti-vehicle missile is probably best described as an AGM-65 Maverick for the 21st century. It has been used with great success in all combat operation RAF has taken part in during recent years. Godfrey highlighted its performance in Libya, where RAF Tornados used it to take out a pro-Gaddafi T-72 which was shooting at a crowd in an urban environment. The Brimstone penetrated the tank, and the explosion was violent enough to cause the turret to bounce from its mount, while the people standing besides it were unhurt. The Brimstone has also quite a lot of potential against lighter naval vessels, and being carried on triple-racks a nice number of missiles can be carried by the Typhoon.

Yes, that is the kind of stuff that gives landing craft skippers nightmares.

The other weapon being integrated with P3E(a) is the Storm Shadow stealthy cruise missile, called SCALP in French service. In the event of the Eurofighter (or Rafale) actually winning the HX-program, this would likely be acquired to replace the AGM-158 JASSM in Finnish service (the 15 year shelf-life of the missiles nicely matches the retirement date of the F/A-18C Hornet). In parallel the P3E(b) is being developed for the Kuwait Air Force, and includes the Enhanced GBU-16 (GBU-48) 1,000 pound laser/GPS-guided bomb, as well as the CAPTOR E AESA radar and the Sniper advanced targeting pod in place of RAF’s Litening III pods.

There has been much talk about the fact that the Eurofighter still relies on the CAPTOR M mechanically scanned radar, which, despite being more or less as good as it gets when it comes to mechanical scanning, is still not an electronically scanned array. Godfrey admits that while the current radar is very good, he would like to get the CAPTOR E.  “Would I like to have an AESA? Sure. Why? Because of versatility.” While his wish will be granted, in the case of RAF, the CAPTOR E is still some time out in the future.

Before HX deliveries the plan is that yet another major upgrade will have taken place. The P4E is currently in the negotiation phase, and as such its exact scope is yet undecided. The plan is that the upgrade will include full operational capability for the CAPTOR E, upgrades to the PIRATE infrared search and track sensor, as well as the integration of SPEAR long-range anti-tank/anti-vehicle weapon (and/or the Small Diameter Bomb in some version). The SPEAR will, together with a planned major improvement to the DASS and sensor integration, be at the core of allowing the Typhoon to take up the SEAD/DEAD mission. This is a most welcome addition for RAF, as they lack a dedicated SAM-hunting capability after the retirement of the ALARM anti-radiation missile in 2013. In addition, a number of anti-ship missiles are currently being evaluated. These include the Marte ER, of which there is currently a feasibility study ongoing for integrating it onto the Typhoon, as well as the JSM and Harpoon (of which the JSM is further along). A contract for the P4E is expected within the next 12 months.

Pair of Tiffies

“The Centurion staircase is what’s driving the UK Typhoon program”JOHN BROMEHEAD, GENERAL MANAGER BAE SYSTEMS

What won’t see a direct replacement is the RAPTOR reconnaissance pod, the British version of the Goodrich DB-110. Instead, advanced targeting pods will take over the role of dedicated reconnaissance pods for the Typhoon.

The P4E would likely form the basis of the Eurofighter Typhoon’s HX-bid. Still, it is important to remember that just because an aircraft is certified for a certain weapon, it does not mean that Finland would get these (case in point the current F/A-18C Hornet is able to carry the better part of the US Navy’s arsenal, while in Finnish service the weapons used goes on the fingers of one hand). In the case of the Eurofighter, while the weapons integration is part of the core package, ‘unlocking’ a certain weapon or capability means buying it from the nation(s) that have originally paid for it’s integration. In this way, costs for popular weapons are brought down through sharing, but you only pay for the ones you plan on buying. Realistically, this means that Finland e.g. would buy either IRIS-T (likely) or the ASRAAM short-ranged air-to-air missiles to complement the longer-ranged Meteor, and not both. In the same way, exactly which ground attack weapons would be bought is open. To replace the capabilities of the current F/A-18C Hornet the Storm Shadow would likely replace the JASSM, with SPEAR and some suitable GPS/LGB being other likely candidates. Brimstone and an anti-ship missile would add significant punch to the Air Force, but while the Air Force Command has confirmed they are looking into the anti-shipping mission for HX, it is unlikely that the funds will be found for these (at least not in the initial buy).

What will then follow after P4E? The Typhoon is set to stay RAF’s primary air superiority fighter for the foreseeable time, and the current plan is that it will stay in RAF service beyond 2050. Integration with unmanned platforms operating is a hot topic. A large area display for the cockpit has also been proposed to customers, but currently the interest from the users has instead focused on the Striker II helmet mounted sight, which will provide a full-colour, fully digital night/day sight. While the exact development path is still open, it is clear that the development will continue. As BAE Systems Mark Parkinson notes: “There is simply nothing else on the horizon.”