Latest updates[?]: Boeing won a $16.6 million order, which procures retrofit modification upgrades to the series aircrafts’ F/A-18 Block II Super Hornet and Growler display suites within the Block III Super Hornet and Growler Advanced Cockpit Systems. The Boeing F/A-18E and F/A-18F Super Hornet are twin-engine, carrier-capable, multirole fighter aircraft variants based on the McDonnell Douglas F/A-18 Hornet. The F/A-18E single-seat and F/A-18F tandem-seat variants are larger and more advanced derivatives of the F/A-18C and D Hornet. The single-seat F/A-18 Hornet is the nation's first strike-fighter. It was designed for traditional strike applications such as interdiction and close air support without compromising its fighter capabilities. With its excellent fighter and self-defense capabilities, the F/A-18 at the same time increases strike mission survivability and supplements the F-14 Tomcat in fleet air defense. F/A-18 Hornets are currently operating in 37 tactical squadrons from air stations world-wide, and from 10 aircraft carriers. Work will take place in Missouri, Arizona, California and Florida. Estimated completion date will be in February 2025.
EA-18G at Pax
The USA’s electronic attack fighters are a unique, overworked, and nearly obsolete capability. With the retirement of the US Air Force’s long-range EF-111 Raven “Spark ‘Vark,” the aging 4-seat EA-6B Prowlers became the USA’s only remaining fighter for radar jamming, communications jamming and information operations like signals interception [1]. Despite their age and performance limits, they’ve been predictably busy on the front lines, used for everything from escorting strike aircraft against heavily defended targets, to disrupting enemy IED land mine attacks by jamming all radio signals in an area.
EA-6B Prowler
All airframes have lifespan limits, however, and the EA-6B is no exception. The USA’s new electronic warfare aircraft will be based on Boeing’s 2-seat F/A-18F Super Hornet multi-role fighter, and has 90% commonality with its counterpart. That will give it decent self-defense capabilities, as well as electronic attack potential. At present, however, the EA-18G is slated to be the only dedicated electronic warfare aircraft in the USA’s future force.
DID’s FOCUS articles offer in-depth, updated looks at significant military programs of record. This article describes the EA-18G aircraft and its key systems, outlining the program, and keeping track of ongoing developments, contracts, etc. that affect the program.
Latest updates[?]: System Dynamics International won a $28.7 million contract for MQ-9 unmanned aerial system aircrew and support services. This award is the result of a competitive acquisition and five offers were received. The MQ-9 Reaper is an armed, multi-mission, medium-altitude, long-endurance remotely piloted aircraft that is employed primarily against dynamic execution targets and secondarily as an intelligence collection asset. Work will take place in California and Arizona. Estimated completion date is June 30, 2025.
Reaper, ready…
The MQ-9 Reaper UAV, once called “Predator B,” is somewhat similar to the famous Predator. Until you look at the tail. Or its size. Or its weapons. It’s called “Reaper” for a reason: while it packs the same surveillance gear, it’s much more of a hunter-killer design. Some have called it the first fielded Unmanned Combat Air Vehicle (UCAV).
The Reaper UCAV will play a significant role in the future USAF, even though its capability set makes the MQ-9 considerably more expensive than MQ-1 Predators. Given these high-end capabilities and expenses, one may not have expected the MQ-9 to enjoy better export success than its famous cousin. Nevertheless, that’s what appears to be happening. MQ-9 operators currently include the USA and Britain, who use it in hunter-killer mode, and Italy. Several other countries are expressing interest, and the steady addition of new payloads are expanding the Reaper’s advantage over competitors…
Austal Team
Trimaran LCS Design
(click to enlarge)
Exploit simplicity, numbers, the pace of technology development in electronics and robotics, and fast reconfiguration. That was the US Navy’s idea for the low-end backbone of its future surface combatant fleet. Inspired by successful experiments like Denmark’s Standard Flex ships, the US Navy’s $35+ billion “Littoral Combat Ship” program was intended to create a new generation of affordable surface combatants that could operate in dangerous shallow and near-shore environments, while remaining affordable and capable throughout their lifetimes.
It hasn’t worked that way. In practice, the Navy hasn’t been able to reconcile what they wanted with the capabilities needed to perform primary naval missions, or with what could be delivered for the sums available. The LCS program has changed its fundamental acquisition plan 4 times since 2005, and canceled contracts with both competing teams during this period, without escaping any of its fundamental issues. Now, the program looks set to end early. This public-access FOCUS article offer a wealth of research material, alongside looks at the LCS program’s designs, industry teams procurement plans, military controversies, budgets and contracts.
Latest updates[?]: The Navy awarded Boeing a $12.5 million order, which procures non-recurring engineering in support of establishing a functional configuration baseline in support of the production and delivery of Automatic Dependent Surveillance-Broadcast Out (ADS-B Out) A-kits and B-kits for the T-45 Training System. The deal provides for the procurement of B-kits, to include air data computers and A-kits, which consist of associated wiring, splitters and filters and spares. This order also provides kit integration, follow-on analysis and engineering in support of issues that may arise during kit production and installation. The T-45A/C Goshawk is the US Navy’s two-seat advanced jet trainer. The aircraft is jointly manufactured by Boeing and BAE Systems. Work will take place in St. Louis, Missouri and Mesa, Arizona as well as various locations within the continental US. Estimated completion will be by January 2023.
Do you feel lucky…?
The T-45 Training System includes T-45 Goshawk aircraft, advanced flight simulators, computer-assisted instructional programs, a computerized training integration system, and a contractor logistics support package. The integration of all 5 elements is designed to produce a superior pilot in less time and at lower cost than previous training systems.
The US Navy uses the Hawk-based T-45TS system to train its pilots for the transition from T-6A Texan II/ JPATS aircraft to modern jet fighters – and carrier landings. This is not a risk-free assignment, by any means. Nevertheless, it is a critical link in the naval aviation chain. This DID FOCUS article covers the T-45TS, and associated contracts to buy and maintain these systems, from 2006 to the end of FY 2014.
Latest updates[?]: Oshkosh Defense won a $10.6 million contract for field service representatives to provide maintenance to Joint Light Tactical Vehicles during an exercise being conducted by the United Kingdom Ministry of Defense. A JLTV trailer can accommodate more than 5K pounds of payload, travel at a speed of up to 70 miles per hour and operate with older Army ground vehicles such as Humvees. The platform also features an anti-lock braking system. Work will take place in Oshkosh, Wisconsin. Estimated completion date is January 31, 2023.
Ultra APV demonstrator
In an age of non-linear warfare, where front lines are nebulous at best and non-existent at worst, one of the biggest casualties is… the concept of unprotected rear echelon vehicles, designed with the idea that they’d never see serious combat. That imperative is being driven home on 2 fronts. One front is operational. The other front is buying trends.
These trends, and their design imperatives, found their way into the USA’s Joint Light Tactical Vehicle (JLTV) program, which aims to replace many of the US military’s 120,000 or so Humvees. The US military’s goal is a 7-10 ton vehicle that’s lighter than its MRAPs and easier to transport aboard ship, while offering substantially better protection ad durability than existing up-armored Humvees. They’d also like a vehicle that can address front-line issues like power generation, in order to recharge all of the batteries troops require for electronic gadgets like night sights, GPS devices, etc.
DID’s FOCUS articles offer in-depth, updated looks at significant military programs of record. JLTV certainly qualifies, and recent budget planning endorsements have solidifed a future that was looking shaky. Now, can the Army’s program deliver?
Latest updates[?]: Scientific Systems won a $9.6 million order, which provides for continuing improvement of the software development processes to enhance cybersecurity and software safety for the Image Based Navigation for Vertical Take-off and Landing Tactical Unmanned Aerial Vehicle Shipboard Landing program in support of the MQ-8 Fire Scout Unmanned Air Vehicle. This is a Small Business Innovation Research (SBIR) Phase III for research and development performed under the SBIR topic numbers N112-127, N03-025 and AF06-149. The MQ-8 Fire Scout Vertical Takeoff and Landing Tactical Unmanned Aerial Vehicle system is comprised of ground control stations, up to three MQ-8B Fire Scout air vehicles, and associated control handling and support equipment. The VTUAV system is designed to operate from air-capable ships with initial deployment on the Littoral Combat Ship (LCS) and will provide a significant improvement to organic surveillance capability. Work will take place in Massachusetts and New Hampshire. Estimated completion date is June 2023.
MQ-8B Fire Scout
A helicopter UAV is very handy for naval ships, and for armies who can’t always depend on runways. The USA’s RQ/MQ-8 Fire Scout Unmanned Aerial Vehicle has blazed a trail of firsts in this area, but its history is best described as “colorful.” The program was begun by the US Navy, canceled, adopted by the US Army, revived by the Navy, then canceled by the Army. Leaving it back in the hands of the US Navy. Though the Army is thinking about joining again, and the base platform is changing.
The question is, can the MQ-8 leverage its size, first-mover contract opportunity, and “good enough” performance into a secure future with the US Navy – and beyond? DID describes these new VTUAV platforms, clarifies the program’s structure and colorful history, lists all related contracts and events, and offers related research materials.
Latest updates[?]: A fault in the launch system kept planes from launching from the aircraft carrier USS Gerald R. Ford during a five-day test, the Navy said. The Ford was at sea for testing of communications and data systems, as well as flight operations, over the weekend, but was unable to launch planes for five days. A fault in the power-handling system connecting the ship's turbines to its EMALS -- Electromagnetic Aircraft Launch System -- was discovered on June 2 and not rectified until June 7, allowing flyoffs by the Carrier Air Wing. The cause of the fault remains under investigation.
USA’s Nimitz Class &
UK’s Invincible Class
Some nations have aircraft carriers. The USA has super-carriers. The French Charles De Gaulle Class nuclear carriers displace about 43,000t. India’s new Vikramaditya/ Admiral Gorshkov Class will have a similar displacement. The future British CVF Queen Elizabeth Class and related French PA2 Project are expected to displace about 65,000t, while the British Invincible Class carriers that participated in the Falklands War weigh in at just 22,000t. Invincible actually compares well to Italy’s excellent new Cavour Class (27,000t), and Spain’s Principe de Asturias Class (17,000t). The USA’s Nimitz Class and CVN-21 Gerald R. Ford Class, in contrast, fall in the 90,000+ tonne range. Hence their unofficial designation: “super-carriers”. Just one of these ships packs a more potent air force than many nations.
Nimitz Class cutaway
As the successor to the 102,000 ton Nimitz Class super-carriers, the CVN-21 program aimed to increase aircraft sortie generation rates by 20%, increase survivability to better handle future threats, require fewer sailors, and have depot maintenance requirements that could support an increase of up to 25% in operational availability. The combination of a new design nuclear propulsion plant and an improved electric plant are expected to provide 2-3 times the electrical generation capacity of previous carriers, which in turn enables systems like an Electromagnetic Aircraft Launching System (EMALS, replacing steam-driven catapults), Advanced Arresting Gear, and integrated combat electronics that will leverage advances in open systems architecture. Other CVN-21 features include an enhanced flight deck, improved weapons handling and aircraft servicing efficiency, and a flexible island arrangement allowing for future technology insertion. This graphic points out many of the key improvements.
DID’s CVN-21 FOCUS Article offers a detailed look at a number of the program’s key innovations, as well as a list of relevant contract awards and events.
Latest updates[?]: JoongAng Ilbo has found out that the recent equipment upgrades at the THAAD site in Seongju, South Korea was to allow its AN/TPY-2 radar to guide PAC-3 interceptors launched remotely. The South Korean government had said the upgrading exercise was merely to replace old THAAD missiles with new ones. With the upgrade, 100 Patriot launchers in South Korea can be directed by the THAAD’s radar. It was reported a few days ago that the United States Forces Korea have shipped a new batch of THAAD interceptors to the site at Seongju on May 28. These missiles are of the same type as existing ones which require replacement as the internal components are expiring soon. The operation took nearly one day and ended on Friday. Usually, parts were flown in but this time, the equipment were too heavy to be airlifted. The THAAD site in South Korea has six launchers with eight interceptors each.
THAAD: In flight
The Terminal High Altitude Area Defense (THAAD) system is a long-range, land-based theater defense weapon that acts as the upper tier of a basic 2-tiered defense against ballistic missiles. It’s designed to intercept missiles during late mid-course or final stage flight, flying at high altitudes within and even outside the atmosphere. This allows it to provide broad area coverage against threats to critical assets such as population centers and industrial resources as well as military forces, hence its previous “theater (of operations) high altitude area defense” designation.
This capability makes THAAD different from a Patriot PAC-3 or the future MEADS system, which are point defense options with limited range that are designed to hit a missile or warhead just before impact. The SM-3 Standard missile is a far better comparison, and land-based SM-3 programs will make it a direct THAAD competitor. So far, both programs remain underway.
Latest updates[?]: The UK Royal Navy completed a series of live firing trials of the new Martlet lightweight precision strike missile from a Wildcat HMA2 helicopter. Undertaken at the UK Ministry of Defense Aberporth Range on the west coast of Wales, the firings, which were conducted as part of the UK’s Future Anti-Surface Guided Weapon program, demonstrated the integration of the Martlet system onto the Wildcat platform ahead of service entry. The system is due to enter service with the RN in January 2021, according to the Defense Equipment Plan 2019 financial summary released in February 2020.
Future Lynx naval
In 2006, Finmeccanica subsidiary AgustaWestland received a GBP 1 billion (about $1.9 billion at 02/07 rates) contract from the UK Ministry of Defence (MoD) for 70 Future Lynx helicopters, and began a new chapter in a long-running success story. The Lynx is an extremely fast helicopter that entered service in the 1970s, and quickly carved out a niche for itself in the global land and naval markets. The base design has evolved into a number of upgrades and versions, which have been been widely exported around the world.
In Britain, Lynx helicopters are used in a number of British Army (AH7 & AH9) and Fleet Air Arm (Mk 8) roles: reconnaissance, attack, casualty evacuation & troop transport, ferrying supplies, anti-submarine operations, and even command post functions. The Future Lynx program reflects that, and British government and industry are both hoping that its versatility will help it keep or improve the Lynx family’s global market share. This is DID’s FOCUS Article for the AW159 Lynx Wildcat Program, describing its technical and industrial features, schedules, related contracts, and exports.
Latest updates[?]: British Chinook helicopters have now completed 2000 hours of flying in support of the French military counter insurgency operation in Mali, West Africa. Chinooks began operating in Mali with the French military during July 2018 and since then have moved over one-thousand tonnes of freight and over twelve-thousand passengers. The Chinook helicopters bring a unique logistical capability to the operation, allowing French ground forces to operate more effectively across the region. Currently the helicopters are being flown by aircrew drain from 18(B) Squadron.
CH-47Fs take off
DII FOCUS articles offer in-depth, updated looks at significant military programs of record; this FOCUS Article covers the CH-47F/MH-47G Chinook helicopter programs, in the USA and abroad. These helicopters’ distinctive “flying banana” twin-rotor design stems from the brilliant work of aviation pioneer Frank Piasecki. It gives Chinooks the ability to adjust their positioning very precisely, while carrying a large airframe whose load capacity has made it the world’s most popular heavy-lift helicopter. The USA expects to be operating Chinooks in their heavy-lift role past 2030.
The CH-47F looks similar to earlier models, but offers a wide range of improvements in almost every aspect of design and performance. While the related HH-47’s $10-15 billion CSAR-X program win was terminated, delivery orders continue for CH-47Fs and for MH-47G Special Forces configuration helicopters. International orders or formal requests have also come in from Australia, Britain, Canada, Italy, the Netherlands, Turkey, and the UAE, with India and other countries expected to follow.
