CEC: Cooperative Engagement for Fleet Defense

CEC Concept
(click to enlarge)

Cooperative Engagement Capability (CEC) is the US Navy’s secret weapon. Actually, it’s not so secret. It’s just that its relatively low price means often leads people to overlook the revolutionary change it creates for wide-area fleet air defense, up to and including anti-ballistic missile capability.

CEC is far more than a mere data-sharing program, or even a sensor fusion effort. The concept behind CEC is a sensor netting system that allows ships, aircraft, and even land radars to pool their radar and sensor information together, creating a very powerful and detailed picture that’s much finer, more wide-ranging, and more consistent than any one of them could generate on its own. The data is then shared among all ships and participating systems, using secure frequencies. It’s a simple premise, but a difficult technical feat. With huge implications.

This DID FOCUS Article explains those mechanics and implications. It will also track ongoing research, updates, and contracts related to CEC capabilities from 2000 forward.

A Higher-Tech Hog: USAF A-10C Upgrades and Refurbishments

A-10A over Germany

The Precision Engagement modification is the largest single upgrade effort ever undertaken for the USA’s unique A-10 “Warthog” close air support aircraft fleet. While existing A/OA-10 aircraft continue to outperform technology-packed rivals on the battlefield, this set of upgrades is expected to make them more flexible, and help keep the aircraft current until the fleet’s planned phase-out in 2028. When complete, A-10C PE will give USAF A-10s precision strike capability sooner than planned, combining multiple upgrades into 1 time and money-saving program, rather than executing them as standalone projects. Indeed, the USAF accelerated the PE program by 9 months as a result of its experiences in Operation Iraqi Freedom.

This is DID’s FOCUS Article for the PE program, and for other modifications to the A-10 fleet. It covers the A-10′s battlefield performance and advantages, the elements of the PE program, other planned modifications, related refurbishment efforts to keep the fleet in the air, and the contracts that have been issued each step of the way.

Pilum High: The Javelin Anti-Armor Missile

Javelin, firing

The FGM-148 Javelin missile system aimed to solve 2 key problems experienced by American forces. One was a series of disastrous experiences in Vietnam, trying to use 66mm M72 LAW rockets against old Soviet tanks. A number of replacement options like the Mk 153 SMAW and the AT4/M136 spun out of that effort in the 1980s, but it wasn’t until electronics had miniaturized for several more cycles that it became possible to solve the next big problem: the need for soldiers to remain exposed to enemy fire while guiding anti-tank missiles to their targets.

Javelin solves both of those problems at once, offering a heavy fire-and-forget missile that will reliably destroy any enemy armored vehicle, and many fortifications as well. While armored threats are less pressing these days, the need to destroy fortified outposts and rooms in buildings remains. Indeed, one of the lessons from both sides of the 2006 war in Lebanon has been the infantry’s use of guided missiles as a form of precision artillery fire. Javelin isn’t an ideal candidate for that latter role, due to its high cost-per-unit; nevertheless, it has often been used this way. Its performance in Iraq has revealed a clear niche on both low and high intensity battlefields, and led to rising popularity with American and international clients.

Malaysia’s SU-30MKMs – Will a New Competition Bring More?

Malaysian SU-30MKM
(click to view larger)

In August 2003, Malaysia signed a $900 million contract with Irkut Corp. for 18 SU-30MKMs. Malaysia flies the F/A-18D Hornet, and was offered Boeing’s F/A-18 E/F Super Hornet, but chose the SU-30MKM instead. The SU-30MKM is an advanced variant, whose performance involves considerable improvements over SU-30MK/MKK fighters. Their fighter fleet will now consist of R/F-5E/F Tiger IIs (to be phased out), F/A-18D Hornets, MiG-29 Fulcrums (until 2015), and SU-30MKMs. The results from their internal training and air combat exercises would be interesting, to say the least.

On May 24/07, a rollout and demonstration ceremony was held for the first 2 Su-30MKM fighters for the Royal Malaysan Airforce (RMAF) at Russia’s Irkutsk Aviation plant. Irkut was to deliver all aircraft by the end of 2008, but the 18th plane didn’t arrive until the summer of 2011. Even that may not be the last SU-30MKM delivery, depending on how Malaysia’s competition to replace its MiG-29Ns shakes out.

LRASM Missiles: Reaching for a Long-Range Punch

LRASM-A Concept

The US Navy is beginning to acknowledge a growing problem that threatens its freedom of the seas: its strike reach is shrinking and aging, while potential opponents’ attack reach is expanding and modernizing. As new designs replace older planes, US carrier aircraft range is shrinking to 1950s levels. Meanwhile, its anti-ship and land attack missiles are generally older, medium-range subsonic designs like the Harpoon Block I, which are vulnerable to air defenses. In contrast, China is deploying supersonic SS-N-22 “Sunburn” missiles bought from Russia, and working on a DF-21 anti-ship ballistic missile. The Sunburn is just one of Russia’s supersonic anti-ship missile options for sale, and a joint venture with India has added the supersonic PJ-10 BrahMos.

The math is stark: enemies with longer reach, and better weapons, may be able to create large “no go” zones for the Navy in key conflict areas. In response, think-tanks like CSBA are proposing ideas like AirSea Battle, which emphasizes a combination of advance hardening, more stealth and long-range strike options, and a progressive campaign of blinding strikes and grinding interdiction campaigns. Success will require some changes to American weapons, beginning with the missiles that arm its ships and aircraft. Hence LRASM: the Long Range Anti-Ship Missile, with a secondary land-strike role.

Saudi Shopping Spree: A Hardened, Networked National Guard

Latest updates[?]: Training infrastructure - will it make a difference?

LAV-25 in combat

The Saudi Arabian National Guard is seeing a lot of investment lately. In July 2006, the Saudis formally tabled a multi-billion dollar request to buy LAV wheeled APCs and related equipment for its National Guard. October 2010 added a slew of added requests, covering a wide range of transport, scout, and attack helicopters. Other contracts in between have involved missiles, communications, and training. It all adds up to a fairly comprehensive modernization.

Who is the SANG, and why are they a globally significant institution? A must-read article in the Tribune-Libanaise explains:

Apache Helicopter Pilots Take Aim with Arrowhead

AH-64 & Arrowhead

For much of the post-WWII era, US helicopter pilots have been trained to fly “low and fast.” This was based on combat experience in Korea and Vietnam. In the urban environments of Iraq and Afghanistan, however, flying low and fast has made helicopters more vulnerable to a number of threats: terrain, wires/powerlines, rocket propelled grenades, small arms fire, and shoulder-fired missiles.

Enter the Arrowhead system. Arrowhead is an electro-optical and fire control system that AH-64 Apache helicopter pilots use for combat targeting of their Hellfire missiles and other weapons, as well as flying in day, night, or bad weather missions. The system also provides accurate targeting at high altitudes, a practice that also has its drawbacks. This free-to-view Spotlight article covers the Arrowhead’s characteristics, components, contacts, consequences, and contracts.

APKWS II: Laser-Guided Hydra Rockets in Production At Last

Hydras & Hellfires

The versatile Hydra 70mm rocket family is primed for a new lease on life, thanks to widespread programs aimed at converting these ubiquitous rockets into cheap laser-guided precision weapons. Conversion benefits include cost, use on both helicopters and fighters, more precision weapons per platform, low collateral damage, and the activation of large weapon stockpiles that couldn’t be used under strict rules of engagement.

Firms all over the world have grasped this opportunity, which explains why strong competition has emerged from all points of the compass. America’s “Advanced Precision-Kill Weapon System (APKWS)” is one of those efforts, but the road from obvious premise to working weapon has been slow. After numerous delays and false starts since its inception in 1996, an “APKWS-II” program finally entered System Design and Development (SDD) in 2006. In 2010, it entered low-rate production, and it was fielded to the front lines in 2012. That date will still put APKWS on the cutting edge of battlefield technology, as a leading player in a larger trend toward guided air-to-ground rockets.

Australia’s 2nd Fighter Fleet: Super Hornets & Growlers

RAAF F/A-18F rollout

Australia’s A$ 10+ billion Super Hornet program began life in a storm. Australia’s involvement in the F-35 Lightning II program have been mired in controversy, amid criticisms that the F-35A will (1) be unable to compete with proliferating SU-30 family fighters in the region, (2) lack the range or response time that Australia requires, and (3) be both late and very expensive during early production years.

The accelerated retirement of Australia’s 22 long-range F-111s in 2010 sharpened the timing debate, by creating a serious gap between the F-111′s retirement and the F-35′s likely arrival. Further delays to the F-35 program have created new worries that even the upgraded F/A-18AM/BM Hornet fleet won’t last long enough to allow smooth replacement.

The Super Hornets survived potential cancellation, and the “surprise” stopgap buy has steadily morphed into a mainstay of the future RAAF, with a new and unique set of electronic warfare capabilities thrown into the mix. This DID Spotlight article describes the models chosen, links to coverage of the key controversies, and offers a history of contracts and key events from the program’s first official requests to the present day.

Canada’s CH-148 Cyclones: Better Late, or Never?

CH-148 Cyclone

Canada’s Maritime Helicopter Replacement Program has been a textbook military procurement program over its long history. Unfortunately, it has been a textbook example of what not to do. While Canada’s 50-year old Sea King fleet aged and deteriorated to potentially dangerous levels, political pettiness and lack of concern turned a straightforward off-the-shelf buy into a 25+ year long odyssey of cancellations, lawsuits, rebids, and more. Eventually, the Canadian military settled on Sikorsky’s H-92 Superhawk as the basis of its new CH-148 Cyclone Maritime Helicopter, which will serve from the decks of Canada’s naval ships and bases.

The civilian S-92 has gone on to some commercial success. To date, however, Canada has been the H-92′s only military customer – with all of the associated systems integration and naval conversion burdens that one would expect. After a long series of badly missed milestones and delivery delays, there are also deeper questions being raised concerning both the machines’ fitness, and DND’s conduct of the program as a whole. This article covers the rationale for, history of, and developments within Canada’s Maritime Helicopter Program.