Defense Industry Daily

MC-12 arrives
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Despite all of the high-tech fighter hours flown in theater, Hawker Beechcraft’s twin-propeller King Air 350 continues to gain traction as an affordable, long-endurance option for light cargo delivery in remote areas – and effective manned battlefield surveillance and attack. Iraq’s Air Force was the first to order them, and an initial 6-plane UC-12W order from the US Marines/Navy followed in July 2008.

Former US Secretary of Defense Robert Gates pushed hard to improve ISR (Intelligence, Surveillance & Reconnaissance) capabilities on the front lines, and one of those planned purchases involved about 30 King Air 350/ C-12 aircraft for the Army. These “MC-12s” have proven to be very useful as a component of the Army’s Task Force ODIN, which has combined the respective advantages of UAVs and manned aircraft to improve aerial surveillance and response over Iraq. ODIN is credited with a number of successes on the ground, and the concept is being exported to Afghanistan. Part of that process involves buying new, updated aircraft, and the US military continues to buy KA350 turboprops for use in different configurations.

Project Liberty, and the MC-12

C-12 near Washington
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The new King Air 350s are called “MC-12W Project Liberty special mission turboprop aircraft” by the US Air Force. The old C-12/UC-12 is also known as the Huron, and was derivative of the civilian Beechcraft King Air 200. It can land on airfields under 3,000 feet in length, and is normally used for VIP and light transport duties. These short-field capabilities, coupled with the small size of many urgent needs on the front lines, have pressed many C-12s into service in theater.

Secretary Gates gave the green light to buy 37 MC-12 aircraft by the end of 2009, as part of the Project Liberty program. Project Liberty is part of the Secretary of Defense Robert Gates’ ISR task force, which was set up to provide enhanced ISR capabilities to U.S. Central Command.

The new MC/UC-12 orders are King Air 350s, however, a slightly larger aircraft with 23.5% more engine power, improved speed and rate of climb, and slightly more load-carrying capacity. Another advantage they’ll have over their predecessors is built-in protective systems. In contrast, American UC-12s have often had their in-theater flights limited or at risk due to their their lack of protection against shoulder fired ground-to-air missiles like the SA-7.

350-ISR layout
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Taking off with full fuel and payload, an MC-12 can perform medium-altitude surveillance over a designated area for more than 7 hours, fly back 100 nautical miles to base, and still land with more than 45 minutes of fuel on board. That’s significantly less time than an MQ-1B Predator UAV’s 30 hours, but the plane can carry more gear, and has a much wider general field of view.

The MC-12 aircraft are equipped with signals intelligence (SIGINT) electronic interception capabilities, and carry L-3 Westar’s MX-15i surveillance turrets. The first 8 MC-12s were restricted to an infrared pointer, which allowed the aircraft to signal an object or building to soldiers wearing special goggles. It took until September 2013 to begin working with a full laser targeting designator that could mark targets for helicopter or UAV-fired Hellfire missiles, laser-guided AGM-65 Maverick missiles fired from manned fighters, and the laser-guided 70mm rockets that many vendors are currently developing.

Contracts and Key Events

The US military also lets service contracts for King Airs, but those contracts also include existing legacy B200/C-12 aircraft. They are not covered here. Unless otherwise noted, contracts are issued to Hawker Beechcraft Corp. in Wichita, KS.

FY 2014 – 2018

USAF divests the fleet to US Army; Crash.

MC-12W, Bagram
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October 9/18: Canadian order The Canadian government is requesting the purchase of three King Air 350ER aircraft in their ISR configuration. The State Department is determined to approve this possible FMS with a value of $300 million. The King Air 350ER is a multi-mission, twin-engine turboprop aircraft, which can be deployed to conduct SAR, ISR, transport, and monitoring operations. The aircraft is a derivative of the King Air 350 and incorporates advanced technology and a unique and flexible mission package. It is highly reliable and can last for more than 12 hours with extended range. Canada’s unique customer post-modifications for Intelligence, Surveillance and Reconnaissance (ISR) operations include three WESCAM MX-15D EO/IR sensors, three AN/AAR-47B(V)2 MWS, three AN/ALE-47 CMDS, three VORTEX Dual RF Ku LOS Transceivers and a number of different transponder sets. The DSCA release states that “the proposed sale improves Canada’s capability to meet current and future threats; strengthen its homeland defense and the combined defense of North America; and support coalition partners overseas.” Principal contractor will be Beechcraft (Textron Aviation).

February 23/18: FMS-Kuwait The possible foreign military sale (FMS) of four King Air 350ER Intelligence, Surveillance, and Reconnaissance (ISR) aircraft has been cleared by the Trump administration to the government of Kuwait. An announcement posted by the US State Department’s Defense Security Cooperation Agency (DSCA) estimate the sale at $259 million, with the package to include enhanced PT6A-67A engines, AN/AAQ-35 WESCAM MX-15HDi Electro-Optical & Infrared Imaging Sensor Turrets, Selex Seaspray 7500E Active Electronically Scanned Array Radars (AESA), AN/AAR-47 Missile Warning Systems (MWS), AN/ALE-47 Countermeasure Dispenser Systems, as well as other systems, training and support. Furthermore, one of the four aircraft will be further modified to accommodate VIP/senior leadership personnel for transport and Med Evac capability or command and control,and other related elements of logistical support. Sierra Nevada Corp will act as lead contractor on the sale.

February 25/16: Iraq is to receive a $350 million five-year sustainment package for its KA-350 fleet after the sale was approved by the US Congress. The six King Air aircraft were purchased from manufacturer Beechcraft in 2007 with five possessing intelligence, surveillance, and reconnaissance (ISR) capabilities. The latest package will include provision of operational and intermediate depot level maintenance, spare parts, component repair, publication updates, maintenance training, and logistics. The majority of the aircraft have been used in supporting Iraqi military operations against Al-Qaeda affiliates and Islamic State militants in the country.

Nov 12/14: Transferred. After an initial period that transferred some USAF MC-12W ISR aircraft to US Army control, the USAF announces that they’re divesting the entire fleet to a combination of the US Army, and Air Force Special Operations Command.

“…so it can invest in capabilities suited for highly contested operations. Even so, the MC-12 will be regarded as an extraordinarily successful program. During the 400,000 combat hours flown, the MC-12W Liberty aided in the kill or capture of more than 8,000 terrorists, discovered more than 650 weapons caches, helped divert convoys around improvised explosive devices, provided over watch for large numbers of coalition forces, and saved coalition lives.”

By 2015, only the Army will own the aircraft, and USAF crews will augment Army personnel. The Air Force will also provide the back-end processing, exploitation and dissemination of MC-12W information until FY 2016, at which point Army personnel will take on the whole mission. Sources: USAF, “ISR aircraft hones in on strategic agility”.

Transfer to US Army/ SOCOM

Jan 10/14: Crash. An MC-12 crash near Baghram Airfield in eastern Afghanistan kills 2 US soldiers and a civilian. Officials denied that enemy action was responsible. Sources: Defense News, “2 soldiers, civilian killed in Afghanistan MC-12 crash”.

Crash

FY 2012 – 2013

Company goes bankrupt, almost bought by China; 5 ordered; MC-12Ws add laser designators.

USMC UC-12W
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Sept 12/13: Target! MC-12W Liberty planes have traditionally needed to pass targets on to Joint Terminal Attack Controller troops, who would then direct fire from aircraft, artillery, etc. They can still do that, but a USAF release says that the MC-12Ws at Beale AFB, CA have added laser designators to their sensor systems, and are training with nearby A-10 and F-15E units.

It’s an obvious benefit to front line troops, who asked for “buddy lasing” capabilities in a recent Tactics Improvement Proposal. That seems to have pushed the USAF to move on something that had been an envisioned upgrade for years. Sources: USAF, “MC-12W airframe now boasts ‘Buddy Lase’ capability”.

Oct 18/12: No boat to China. Hawker Beechcraft, Inc. announces that it couldn’t reach an agreement with Superior Aviation Beijing Co., Ltd., and will go through normal Chapter 11 bankruptcy procedures instead. They do keep the $50 million deposit, and the plan remains the same: exit jets, keep the rest. They expect to emerge from bankruptcy in Q1 2013 as Beechcraft Corp. Reuters says that:

“At a conference in New York on Thursday, Hawker CEO Steve Miller said China-bashing by U.S. presidential candidates may have contributed to failure of the sale talks, which involved many complex issues. “Global politics may have interfered,” said Miller, who was in Beijing last week trying to sell the firm.”

Hawker Beechcraft’s legal representative is Kirkland & Ellis LLP; its financial advisor is Perella Weinberg Partners LP; and its restructuring advisor is Alvarez & Marsal. The Ad Hoc Committee of Senior Secured Lenders’ legal representative is Wachtell Lipton Rosen & Katz. Credit Suisse serves as agent for the lenders under Hawker Beechcraft’s secured pre-petition and DIP credit facilities. Credit Suisse’ legal representative is Sidley Austin LLP and its financial advisor is Houlihan Lokey. The Unsecured Creditors Committee’s legal representative is Akin Gump Strauss Hauer & Feld LLP and its financial advisor is FTI Consulting, Inc. Hawker Beechcraft | Reuters.

No Chinese sale, regular Bankruptcy instead

July 27/12: +4 used. L-3 Communications’ Mission Integration Division in Greenville, TX receives a $12.5 million firm-fixed-price contract for 4 used King Air Model 350 basic aircraft platforms for the US Army, including Rockwell Collins Pro Line 21 integrated avionics systems.

Work will be performed in Greenville, TX and is expected to be complete in August 2012. This contract was not competitively procured pursuant to the FAR 6.302-1 by the Naval Air Warfare Center in Lakehurst, NJ (N68335-12-C-0338).

4 used King Air 350ERs

July 20/12: +1. A $7.5 million firm-fixed-price contract for 1 Hawker Beechcraft King Air 350ER aircraft with program support. Work will be performed in Wichita, KS with an estimated completion date of Sept 30/14. The bid was solicited through the Internet, with 1 bid received by Army Contracting Command at Redstone Arsenal, AL (W58RGZ-12-C-0117).

1 King Air 350ER

July 17/12: Chinese negotiations. HBC announces that the U.S. Bankruptcy Court for the Southern District of New York has approved HBC’s motion to enter into exclusive negotiations with Superior Aviation Beijing Co., Ltd., giving them up to 45 days of exclusive negotiations.

As part of the exclusivity agreement, Superior will make an initial deposit of $25 million, with a second $25 million deposit payable within 30 days. Any definitive agreement reached with Superior would be subject to approval by the Committee on Foreign Investment in the United States (CFIUS) and other regulatory agencies. In addition, any definitive agreement with Superior will be subject to termination if another potential purchaser succeeds in the mandatory competitive auction overseen by the U.S. Bankruptcy Court.

July 9/12: Chinese ownership? Hawker Beechcraft, Inc. signs an exclusivity agreement that may lead to a buyout by China’s Superior Aviation Beijing Co. for $1.79 billion. The Chinese firm had approached Hawker Beechcraft “several years ago” with the same intentions, but there are 3 reasons for HBC’s new receptiveness:

1. Superior intends to maintain Hawker Beechcraft’s existing American operations, saving thousands of jobs.

2. Their proposal was the best the company saw in its ongoing review of strategic options, and includes both additional investment and continuing to operate as a standalone entity.

3. HBC believes that this combination would give Hawker Beechcraft greater access to the Chinese business and general aviation marketplace, which is forecast to grow more than 10% a year for the next 10-15 years.

This deal explicitly excludes Hawker Beechcraft Defense Company (HBDC), which would remain a separate entity. That would keep the T-6 and AT-6 out of China’s Hands, but the USA is mostly done with its JPATS trainer buys, so HBDC’s stand-alone survival would be questionable. Superior seems to think so, too, and if HBDC is sold, up to $400 million will be refundable to Superior. Meanwhile, the base King Air 350 would be owned by a Chinese company.

If negotiations with Superior fail, HBC will go back to the Joint Plan of Reorganization it filed with the U.S. Bankruptcy Court on June 30/12, and wind down the company’s jet-related businesses.

Chinese bid

July 9/12: Special Mission Sales. Hawker Beechcraft Corporation (HBC) reports that over the past 5 years, markets outside of the United States accounted for 68% of its special mission aircraft sales. Their definition is fairly broad, and includes air ambulances, trainer aircraft, and even weather modification planes, which are apparently popular in the Middle East. The split is about 33% USA, 34% for Europe, the Middle East and Africa combined, 26% Asia/Pacific and 7% Latin America. VP Special Missions, Jay Gibson, adds that:

“In particular, we expect to see an increase in demand for ISR globally and maritime surveillance aircraft in Africa and Latin America as countries there look to increasingly secure their borders – both on land and at sea.”

May 3/12: Bankruptcy. Hawker Beechcraft, Inc. and “a significant number of its senior secured lenders and senior bondholders” agree to the terms of a financial restructuring plan that will eliminate approximately $2.5 billion in debt and approximately $125 million of annual cash interest expense. The next day, the company’s entry into bankruptcy begins:

“Hawker Beechcraft, Inc. today announced that the U.S. Bankruptcy Court for the Southern District of New York has granted approval of the company’s “First Day Motions” as part of the company’s voluntary filing for reorganization under Chapter 11 of the U.S. Bankruptcy Code… [including] approval to continue to pay employees, and to pay all vendors and suppliers in the ordinary course for goods and services delivered after the commencement of the Chapter 11 case. The company will utilize a commitment for $400 million in Debtor-in-Possession (DIP) financing, negotiated as part of the prearranged restructuring, to meet these obligations.”

Bankruptcy begins

The company’s legal representative is Kirkland & Ellis LLP, its financial advisor is Perella Weinberg Partners LP, and its restructuring advisor is Alvarez & Marsal.

March 27/12: Financial. Hawker Beechcraft, Inc. CEO Steve Miller has a blunt assessment of his company core problem: “the company is operating with a debt load that is restricting its ability to succeed.” As an immediate step, the firm announces:

“…an agreement with certain lenders that will provide the company with approximately $120 million of additional liquidity through an incremental term loan facility under its existing credit facility. The company intends to use the proceeds of this loan to fund its ongoing operations as Hawker Beechcraft continues working with its lenders toward a comprehensive recapitalization. As part of the agreement, lenders currently holding approximately 70 percent of Hawker Beechcraft bank debt have agreed to defer the company’s obligation to make certain interest payments on the company’s senior secured revolving and term loans when due, and have granted the company relief from certain existing loan covenants. This forbearance agreement is scheduled to expire on June 29, 2012.”

See: Hawker Beechcraft | Wichita Eagle.

March 27/12: Support. Hawker Beechcraft Corp. in Wichita, KS receives an $8.5 million dollar firm fixed price contract for 6 months of contractor logistics services. Effort includes total maintenance, logistics for intelligence, surveillance and reconnaissance aircraft and associated ground support equipment. The location of the performance is Wichita, KS. Work is expected to be complete by Sept 30/12. ASC/WINK, Wright Patterson Air Force Base is the contracting activity (FA8620-11-C-3000 P00012).

FY 2011

Orders begin under a new contract (4); LIDAR?; Electric power boost option; L-3’s similar Spydr.

L-3’s Spydr
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July 13-18/11: L-3’s Spydr. L-3’s Mission Integration Division (MID) displays a Spydr King Air 350-ISR surveillance plane, similar to the popular MC-12W Liberty, but a technological step ahead. L-3 is the technology integrator for the MC-12W, but the firm tells Defense News that they’re working on versions built with key technologies from non-American suppliers, in order to avoid ITAR issues. SELEX Galileo’s PicoSAR radar, optics from Zeiss, and other choices yet to be announced are specifically designed to minimize export clearance requirements.

The Spydr Spiral 1 unveiled by L-3 at the UK’s RIAT featured a fuselage-mounted electro-optical/infrared turret, a fuselage pod with a 100-pound payload, a tactical data link, satellite communications, a full signals intelligence system, 4G cellular, and other options. Spiral 2 will add 2 feet to the plane’s nose, to house a 2nd sensor turret. Saudi Arabia and the United Arab Emirates are seen as potential customers in the near term, and L-3 expects to compete in other locations as well (incl. the USA) against offerings from Raytheon, Boeing, and Lockheed Martin. Like Lockheed’s Dragon family of systems, L-3 sees its equipment suite as transferable to a number of different aircraft types. L-3 MID | Defense News | defpro re: PicoSAR selection.

June 21/11: Power up. Hawker Beechcraft Corporation announces an upgraded electric power system for its late model Beechcraft King Air 350 turboprops, designed to add more power for special mission needs. It includes two 400 amp starter generators with paralleled output of 760 amps, an additional mission electrical bus with cockpit control, and automatic load shedding. Overall, it provides another 190 amps of 28 VDC power for late model King Air 350s (serial FL-500 and on) as an aftermarket kit, and is available as an option for on new production special mission King Air 350 aircraft.

The company expects FAA certification in Spring 2012, but has begun accepting orders.

June 16/11: +2 A $15.3 million firm-fixed-price contract for 2 King Air 350ER aircraft. Work will be performed in Wichita, KS, with an expected completion date of Dec. 29/11. Six bids were solicited with two bids received. The U.S. Army Contracting Command, Redstone Arsenal, AL manages the contract (W58RGZ-11-C-0133).

2 King Air 350ERs

March 9/11: 2 + LIDAR. A pair of FBO.gov pre-solicitations cover 2 KA-350ER aircraft, and their LIDAR sensors. Because of its characteristics, LIDAR is especially useful at seeing through foliage.

The first pre-solicitation is for 2 KA-350 ER aircraft, bought as a sole-source, firm-fixed-price contract (amount not mentioned) from HawkerBeechcraft under FAR Part 12, for delivery L-3 in Greenville, TX within 150 days from the date of Award. (FBO# N0016411RJQ95)

L-3 Communications Corp. in Greenville, TX received the sole-source, cost plus fixed fee contract (amount not announced) to integrate the Tactical Operations Light Detection and Ranging (TACOP LIDAR) quick reaction capability aircraft, “…to avoid the significant duplication of cost. Integration required to be completed 12 months from award of contract.” (FBO# N0016411RJQ96)

Dec 2/10: +2. Hawker Beechcraft Corp. in Wichita, KS receives a $15.2 million contract for 2 Hawker Beechcraft King Air 350ERs. At this time, all funds have been obligated. The 645th AESG/SYK at Wright-Patterson Air Force Base, OH (FA8620-11-C-4008).

When asked about this order, Hawker Beechcraft said these were US Army planes, to be delivered in a configuration “similar” to the MC-12W Liberty surveillance variant. Note that most of the gear that could make it a surveillance aircraft would be delivered under separate contracts.

2 King Air 350ERs

FY 2010

More orders under the base contract; MC-12W fielded in Afghanistan; MC-12Ws become communications relays; Sensor contracts; USMC UC-12W rolls out; Study showing UAVs and manned aircraft are complementary.

MC-12: 1st combat mission
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Aug 17/10: Comms. ViaSat Inc. announces that it has deployed airborne communications-on-the-move (COTM) terminals onboard “several dozen” MC-12W aircraft, using the ArcLight Ku-band mobile broadband system, configured in this application for data rates up to 1 Mbps off the aircraft. ViaSat.

July 23/10: Sensors. L-3 Communications announces that its WESCAM subsidiary announces a $200 million indefinite delivery/indefinite quantity (ID/IQ) contract from the USAF. It will buy MX-15Di high-definition surveillance and targeting turrets for MC-12W Project Liberty ISR planes, and MX-20D HD surveillance and targeting turrets for “an undisclosed customer.”

The contract is the 3rd in a series of US military contracts over the last 18 months, worth of to $400 million and covering 6 different surveillance turret types. WESCAM’s L-3 parent is also the prime contractor and systems integrator for Project Liberty. L-3 Communications.

June 1/10: A USA Today article offers some useful background regarding the MC-12W Liberty program. Hyperlinks added by DID:

“MC-12 crews have flown more than 2,000 missions in Iraq, Air Force records show. The first aircraft arrived in Afghanistan last December. The Air Force plans to spend $100 million to train airmen on using the aircraft’s spy technology over the next two years, Air Force budget records show… The Air Force initially bought seven used planes from private businessmen and retrofitted them. It now buys new planes… In April, the Air Force narrowed candidates vying to be the official MC-12 base to facilities in Oklahoma, Mississippi, Virginia, Georgia and Missouri. The final decision will be made next year, the Air Force said in a statement.

Col. Dan Johnson, who commands the 480th Intelligence, Surveillance and Reconnaissance Wing… interviewed, researched and wrote a paper for the Air Force exploring whether drones or manned planes were better at spying on insurgents. “It turned out that we need both,” he said in an e-mail.”

May 18/10: USMC UC-12. Hawker Beechcraft Corporation officially rolls the first UC-12W Operational Support Airlift King Air 350 for the United States Marine Corps. The plane is 1 of 6 ordered in July 2008, with additional options that would let the Marines replace their remaining 6 previous-generation UC-12/ King Air 200 light cargo aircraft. Hawker Beechcraft release [PDF].

UC-12W rollout

March 19/10: Sortie #2,000. The USAF announces that its MC-12W program has completed its 2,000th combat sortie. Capt. Ryan Woodman of the 362nd Expeditionary Reconnaissance Squadron, at Joint Base Balad in Iraq:

“A year ago the commander and I were learning how to start the new aircraft, and now the program just flew its 2,000th mission… Given what this program accomplishes for the troops on the ground, it is a great feeling.”

Many USAF programs spend over 10 years in development, and operational ramp-up is often a more measured process, so Capt. Woodman’s summary is more than just PR.

2,000 MC-12W sorties

Dec 27/09: Afghan arrival. Bagram Airfield welcomes its first USAF MC-12W aircraft to Afghanistan. US Military DVIDS | USAF.

Oct 19/09: +6 MC-12W. Hawker Beechcraft Corporation announces [PDF] that the USAF has exercised a $45 million option for 6 additional MC-12W special mission aircraft in support of Project Liberty, per the original November 2008 contract. The company adds that the first 23 planes have all been delivered, on or ahead of schedule. See also Flight International.

FY 2008 – 2009

Base contract for 23-29 MC-12Ws, and orders; $17 million price broken down; Britain’s “Shadow R1s”.

SecDef Gates speaks to
MC-12W production line
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Sept 15/09: Price breakdown. A comment at the US Air Force Association’s Air & Space Symposium helps clarify the price breakdown of an MC-12W. Lionel G. Smith, L-3’s director, Strategic Development Special Programs, is quoted as saying that:

“It costs about $7 million [per plane] from Hawker Beechcraft, and about $10 million in modifications. From [initial] contract to [deployment in] combat was about eight months.”

July 28/09: +3. Hawker Beechcraft Corporation in Wichita, KS receives a $21.6 million firm-fixed-price contract for the purchase of 1 King Air B350 aircraft, and 2 King Air B350Cs in the air ambulance/medical evacuation, with cargo door options. There are also 6 one-month options for storage of the aircraft.

Work is to be performed in Wichita, KS, with an estimated completion date of Feb 28/11. One was bid solicited with one bid received by U.S. Army Aviation and Missile Command, CCAM-RD-F at Redstone Arsenal, AL (W58RGZ-09-C-0087).

June 16/09: Export potential. Defense News reports that Iraqi and American buys may be the forerunner of a much larger trend:

“…in the coming decade [L-3 and HawkerBeechcraft] saw a potential domestic market for up to 75 of the [King Air 350 ISR] aircraft at a value of $1.3 billion. [L-3 VP Allison] Hartley said Africa, the Middle East and other regions were all potential markets. The international market could be worth double that in platform sales with a value of about $2.5 billion… She specifically named the United Kingdom as a potential sales opportunity. The British have already ordered a handful of King Airs for the ISR mission. One has been delivered.”

As of 2012, Britain operates 5 “Shadow R1” planes.

June 10/09: The first MC-12 Liberty combat mission is flown from Joint Base Balad, Iraq, by the 362nd Expeditionary Reconnaissance Squadron. The specialty reconnaissance aircraft flies a 4-hour mission, after arriving at Balad on June 8/09. Air Force Report: MC-12

| Pentagon DVIDS re: arrival | Pentagon DVIDS re: combat mission.

MC-12W in combat

April 8/09: The USAF announces their acceptance of the first MC-12 from Hawker Beechcraft. Deployment will take place in May 2009.

Dec 24/08: +2. Hawker Beechcraft Corporation in Wichita, KS received a $12.7 million firm-fixed-price contract for the purchase of 2 Super King Air Model 350 aircraft. Work will be performed in Ozark, AL, with an estimated completion date of July 31/09. One bid was solicited and one bid received by the U.S. Army Aviation and Missile Command in Redstone Arsenal, AL (W58RGZ-09-C-0087).

Nov 21/08: L3 Communications Integrated Systems in Greenville, TX received a firm fixed price commercial contract for $7.5 million. This action will provide for 1 Beechcraft King Air 350ER aircraft. L3 does not make the aircraft, but it does perform integration for the ISR version, which will use their MX-15 line or surveillance and targeting turrets.

At this time, the entire amount has been obligated in advance by 645 AESG/SYK at Wright-Patterson AFB, OH (FA8620-09-C-3021)

Civilian 350
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Nov 18/08: Hawker Beechcraft Corp. in Wichita, KS receives a firm-fixed commercial contract for 23 Beechcraft King Air 350ERs, with an option for 6 additional aircraft. The contract’s value is $171.5 million, and the entire amount has already been obligated.

The 645 AESG/SYK at Wright Patterson Air Force Base, OH manages this contract (FA8620-09-C-3020). Hawker Beechcraft’s subsequent release [PDF] confirms that these are “special mission” ISR variants.

23-29 MC-12W

July 10/08: USMC. Hawker Beechcraft Corp. in Wichita, KS receives an estimated $48.8 million firm-fixed-price contract from the US Navy for 6 “C-12 replacement aircraft.” The USMC’s UC-12 fleet, based on the King Air 200, is more than 25 years old.

The USMC’s new planes, based on the King Air 350ER, are eventually given the designation “UC-12W.”

Work will be performed in Wichita, KS and is expected to be completed in February 2011. This contract was competitively procured via electronic request for proposal by the Naval Air Systems Command, Patuxent River, MD manages the contract (N00019-08-C-0057).

6 USMC UC-12W

Additional Readings

• Beechcraft – King Air 350i.

• Beechcraft – Special Missions: Surveillance.

• L-3 Communications – MX-15. The MC-12W’s electro-optical surveillance and targeting turret.

Similar & Related

• DID – Task Force ODIN: In the Kingdom of the Blind….

• DID – MARSS: Quasi-Civilian Spy Plane Service Ordered by Pentagon, Canada. The Canadian order involves King Air 300s, modified for the ISR role.

• Aerial Surveillance Systems, Inc. – SkyEye 350. A private venture based on the King Air 350, similar in concept and equipment to the MC-12W.

News & Views

• US NAVAIR (March 28/13) – Light lift; heavy load: Small aircraft pull their weight.

• DoD Buzz, via WayBack (Oct 2/12) – Army seeks commonality in fixed wing fleet.

• USA Today, via Google Cache (June 1/10) – Newest manned spy plane scores points in war effort.

• Pentagon DVIDS, via WayBack (Sept 1/09) – Gates to MC-12 Workers: Your Work Is Saving Troops’ Lives.

• Defense News, Paris Airshow 2009 (June 16/09) – Beechcraft May Add Weapon-Carrying Capability to King Air [dead link]. They haven’t, yet, but by 2013 they had added laser designation.

• DID (July 16/08) – $48.8M Buys 6 King Air 350s for US Marines.

Americas

The US Air Force is ordering a large batch of Joint Air-to-Surface Standoff Missiles (JASSMs) from Lockheed Martin. The firm-fixed-price, fixed-price-incentive-fee contract is valued at $390.8 million and covers the delivery of 360 JASSMs, three FMS separation text vehicles and one FMS set consisting of a flight test vehicle, tooling and test equipment. The 2,000 lbs. AGM-158 JASSM is a stealthy, inexpensive cruise missile costing about $1 million per unit. The JASSM is currently integrated on a variety of platforms ranging from B-1B Lancer bombers to F-16 Block 50 fighter jets. Work will be performed at Lockheed’s facility in Orlando, Florida and is expected to be completed by October 31, 2021.

General Dynamics is being contracted to upgrade more Strykers for the US Army. The awarded contract modification is priced at $366.9 million and covers the conversion of several Stryker flat-bottom vehicles to the Double V-hull configuration. The V-hull configuration was the Army’s answer to vehicle’s poor performance during IED attacks. The new design channels blast force away from the vehicle and its occupants thus drastically enhancing soldier protection. The Army plans to acquire 742 Stryker DVH vehicles, as retrofits and as new production vehicles. That’s the full extent of the current plan, which was a major step beyond the program’s initial plan of 450 Stryker DVHs. Work will be performed at GD’s factory in Sterling Heights, Michigan, and is scheduled for completion by April 30, 2021.

Boeing is currently in talks with Brazil’s Embraer to set up a KC-390 assembly line in the United States. This round of talks follows a July agreement between the two companies that resulted in Boeing gaining a 80% stake in the Brazilian company’s commercial business. Boeing and Embraer established agreements in 2012 and 2014 that allow the US firm to have a hand in global marketing and logistics support of the KC-390, but a defense related joint venture would allow for a more intensive collaboration. The KC-390 is designed to be a jet-powered rival to compete with Lockheed Martin’s C-130J. The multi-mission aircraft is capable of in-air refueling operations, cargo transport and SOF deployment.

Middle East & Africa

The government of the United Arab Emirates is ordering more attack helicopters for its armed forces. Boeing will provide the Middle-Eastern country with a total of 17 Apache AH-64E aircraft. The $242.1 million contract modification covers the remanufacture of eight, and the production of nine newly build Apaches by Boeing. The AH-64E Guardian Block III is the platform’s next big-leap forward. The upgraded attack helicopter incorporates 26 key new-technology insertions which keep his 1980s airframe at the leading edge of technology. Work will be performed at Boeing’s factory in Mesa, Arizona. Production of the aircraft is estimated to be completed by February 28, 2023.

Iraq is requesting the purchase of five additional Bell 407GX helicopters to support ongoing counter-insurgency operations. The FMS contract has a value of $82.5 million and is currently pending approval by Congress. The possible deal covers the delivery of all helicopters armed with M240 7.62mm Machine Guns. In addition the order also includes options for five M3P .50 caliber machine guns, five M260 rocket launchers in APKWS configuration and five GAU-19 .50 caliber machine guns. The helicopters would be equipped with MX-15Di EO/IR sensors and RF-7850A secure communications radios. Self-Defense measures include the AN/ALE-47 airborne countermeasure dispensing system and AAR-60 MILDS detectors. Installed systems include the Pathfinder MMS, the ARES WMS and MCAS. The DSCA notes that “the addition of five Bell 407GX helicopters will help compensate for the combat loss of seven IA407 helicopters in recent years and increase the Iraqi Security Forces’ combat effectiveness against ISIS and other terrorist elements in Iraq.”

Europe

Jane’s reports that Swedish defense contractor Saab and Raytheon are currently co-developing a new round for the Carl-Gustaf reloadable weapon system. The new round would be the first guided one for the 84 mm recoilless weapon and is designated as Guided Carl-Gustaf Munition (GCGM). The Carl-Gustaf, which the Army calls the M3 Multi-Role Anti-Armor Anti-Personnel Weapon System (MAAWS), entered service in 1991 and has been a staple infantry support weapon in the wars in Iraq and Afghanistan. The MAAWS has similarities to the AT4 shoulder-fired, anti-tank system. But the MAAWS is unique in that the system itself is not disposable, which means it can be used more than once. Jane’s notes that “the GCGM development is effectively an evolutionary progression of the earlier Saab Ultra Light Munition concept, which, under the teaming agreement with Raytheon, has been matured and defined in terms of capability and performance requirements.”

Northrop Grumman confirms that the Italian Air Force successfully completed operational testing of the company’s Advanced Anti-Radiation Guided Missile (AARGM). The missiles are integrated on Italy’s Tornado fighter jets. A series of flight tests ended with two direct hits on critical air defense targets, this milestone allows for the transition of the AARGMs into operational squadrons. Italy and the US signed a MoU in 2005 to cooperatively develop the AGM-88E AARGM missile. The AARGM is a medium range, supersonic, air-launched tactical missile whose primary job is to attack and kill enemy radars. Italy currently plans to buy a total of 250 AARGMs.

Asia-Pacific

Japan’s ATD-X (X-2) program is taking a new turn. The Japanese Ministry of Defense is determined to develop a new fighter jet, that will eventually replace its fleet of F-2s. Proposals from three American and British companies failed to meet Japan’s costs and capability requirements, hence the decision to indigenously develop a new fighter jet. The companies made offers to upgrade their existing models, Lockheed for the F-22, Boeing for the F-15 and BAE for the Typhoon. Development of the new aircraft could cost trillions of yen and could be a major financial burden on Japan’s defense budget. To mitigate the overall cost the ministry has an eye on a joint development with foreign companies. The government is looking towards British or German-French partners as they are also looking into developing next-generation jets. Japan’s Air Self-Defense Force currently operates 92 F-2s which will begin to reach the end of their service life in the 2030s.

Today’s Video

Watch: S-97 hits 200 knots

Americas

The Navy is procuring support equipment for its MQ-8B Fire Scout UAV. Telephonics Corp will deliver a number of AN/ZPY-4 Radar supplies at a cost of $23.5 million. This includes the delivery of 14 complete AN/ZPY-4 Radar sets and associated equipment ranging from signal processors to Radar Command and Control Systems. The MQ-8B is an unmanned full-sized light naval utility helicopter. The AN/ZPY-4 Radar is an X-band radar that uses state-of-the-art ground clutter cancellation techniques to automatically detect and track moving targets. The enhanced radar is capable of supporting missions ranging from blue water to shoreline, and land operations. The radar is configured to uniquely enable the VTOL UAV to conduct broad area intelligence, surveillance, and reconnaissance (ISR) missions. Work will be performed at Telephonics’ Huntington, New York facility and expected to be completed in September 2019.

Northrop Grumman is being tapped to to support organizational level maintenance for the MQ-4C Triton UAS. The awarded firm-fixed-price delivery order is valued at $64.8 million and provides for the production of spares needed to keep the Triton’s Multi-Function Active Sensor (MFAS) operational. According to the company’s website the AN/ZPY-3 MFAS is a 360-degree field-of-regard AESA radar designed for maritime surveillance. The initial spares requirement includes six antenna group assemblies, six wideband receivers/exciters, ten radar signal processors (RSP), two antenna drive electronics and two RSP external power supplies for the MFAS. The MQ-4C Triton provides real-time intelligence, surveillance and reconnaissance (ISR) including vessel detection, tracking and classification over vast ocean and coastal regions. Work will be performed at multiple locations inside and outside the continental US, including – but not limited to – Linthicum, Maryland; Exeter, New Hampshire and San Diego, California. The delivery order is scheduled to run through June 2022.

The Navy is contracting Bell for the delivery of essential parts for its fleet of V-22 Osprey tilt rotor aircraft. The company is being awarded with two firm-fixed-price delivery orders each valued at $48.4 million. They cover the procurement of V-22 PRGB right- and left hand aircraft assembly parts. The V-22’s propulsion system’s external link consists of dual counter rotating proprotors attached to gearboxes driven by two turboshaft engines. PRBG, or proprotor gearboxes are an integral part of the Osprey’s gearbox system, which also includes one mid-wing gearbox (MWGB), two tilt-axis gearboxes and the emergency reservoir system (ELS).

The Air Force is stocking up on aircraft parts. Harris Corp will provide the service with parts for its B-52 bombers and SOF configured C-130 transport planes. The fixed-price, requirements contract is valued at $255.4 million. The B-52H Stratofortress is the mainstay of the US strategic fleet. It provides both penetrating and standoff capabilities that allow the USAF to hit targets almost anywhere in the world. The aircraft is an essential part to the country’s nuclear and conventional posture. The C-130J is a combat proven aircraft system that served as the tactical airlift backbone since 1956. SOF configured airframes include the AC-130J, EC-130J, HC-130J, and MC-130J. Work will be performed at Harris’ New Jersey facility and will run through May 24, 2026.

Middle East & Africa

South African Paramount Group and Italian defense contractor Leonardo are planning to jointly develop a weaponised version of the M-345 trainer jet for the African market. The two companies recently signed a letter of intent during the Africa Aerospace & Defence exhibition. The M-345 is a training jet aircraft with costs comparable to those of a turboprop aircraft, however it features superior performances compared to other airframes. The aircraft is powered by one Williams International FJ44-4M turbofan engine accelerating it to speeds of up to 460 mp/h. The trainer is equipped with five hardpoints supporting up to 2.205 lbs of external stores in the form of drop bombs, rocket pods, and gun pods. Leonardo and Paramount, will evaluate cooperation for the development of an operational configuration of M-345 jet trainer marketed in the African market and will include the possible involvement of Paramount in the SF-260 program and its Logistic Support services.

Europe

The State Department is determined to approve a possible Foreign Military Sale to the United Kingdom. The UK is looking to purchase 50 Mk15 Phalanx CIWS upgrade kits at a cost of $75 million. The radar-guided, rapid-firing MK 15 Phalanx Close-In Weapons System serves as a last-ditch defense against incoming missiles and other targets. The Block IB Baseline 2 Upgrade Kits incorporate digital off-the-shelf signal processing electronics, a new signal source and mixer, and a “surface mode” software upgrade that improves performance against targets on or near the water’s surface. The deal would also include support equipment, test equipment, initial spare parts, technical documentation, training, and engineering technical assistance, and other related elements of logistics and program support. Prime contractor will be Raytheon.

The French government is reaffirming that it will speed up the upcoming delivery of 12 aerial tankers to the French Air Force. The A330-200 MRTT is a derivative of the Airbus A330, and was designed from the outset to be able to function as an aerial tanker and a transport aircraft at the same time. The French Air Force wants the Phénix by 2023, two years earlier as initially envisaged. The new tankers will replace France’s fleet of ageing C-135FR and KC-135R aircraft, some of which are close to 60 years old. The acquisition is part of a number of equipment modernization measures included in the 2019-2025 military budget law.

Asia-Pacific

The Russian Navy adds a second Project 667 submarine to its fleet. Russian media reports that the country launched a new Lads-class diesel-electric submarine in a special ceremony at the Admiralty Shipyards in St. Petersburg on Thursday September 20th. The Kronstadt is a fourth-generation sub that succeeds Kilo-class vessels and offers a much quieter, powerful propulsion and new combat systems. The vessel can achieve speeds of up to 21 knots and is operated by a crew of 35. It carries club-S submarine launched cruise missiles and can fire a total 18 torpedoes, tube-launched anti-submarine and anti-ship missiles. The Lada-class submarines are intended for anti-submarine and anti-ship defense of naval bases, costal installations and sea lanes, as well as patrol and surveillance tasks.

Today’s Video

Watch: Russia deploys 3rd S-400 air defense missile system in Crimea

C-135FR refuels A330
(click to view full)

France currently relies on 14 C-135s for its aerial refueling needs, but these militarized relatives of the Boeing 707 are expensive to maintain, lack key technologies required for unrestricted flight, and are approaching 50 years old. Over those intervening decades, European governments have built up their own aviation industry, and the Airbus A330 MRTT has been ordered by a number of countries. In 2014, France is finally joining them, and beginning a EUR 3 billion program for 12 A330 “Phenix” aerial tanker-transports.

The French purchase will cap a series of interim moves to keep the existing fleet operational. French governments have searched for space in their multi-year military budgets to fund recapitalization, even as technical delays held up key projects…

What’s Now, and What’s Next

C-135FR
(click to view full)

France’s aerial refueling fleet consists of 11 C-135FRs modernized from KC-135A equivalent status, and 3 KC-135Rs. Both fleets fly with GE/Snecma CFM56-2 turbofan engines, in place of more primitive Pratt & Whitney J57 turbojets. In addition to standard aerial refueling roles, they remain vitally important to the reach France’s nuclear deterrent, which retains a significant dependence on Mirage 2000N and Rafale F3 fighters armed with ASMP-A missiles.

In 2009, France’s DGA announced that they would be modernizing the avionics in the Armee de l’Air’s 11 C-135FR aerial tankers to the C-135FR RENO2 standard, in order to keep them compliant with ICAO regulations for operation in civilian airspace. The goal was to deliver the first modernized aircraft in 2011, finish deliveries by 2013, and begin replacing the fleet in 2015 with A400Ms and A330 MRTTs. Budget problems (A330, see below) and late projects (A400M, late by 3.5 years) have scrambled that timeline, and so France added its 3 KC-135Rs to the upgrade program.

France also has a small passenger transport fleet, made up of 3 shorter-range A310s and 2 long-range A340s. They can fly long distances more efficiently than France’s C-160 Transall and C-130H Hercules fleets, using civilian airports and other infrastructure to carry larger numbers of troops and some cargo.

Unfortunately, the sum total of all current French fleets would only meet 25% of the airlift requirements set out in France’s 2008 defense white paper, and falls well short of aerial refueling requirements. France’s aerial refueling and large/ long-distance transport fleets will be replaced in a 2-part maneuver.

Airbus: A330 MRTT

At the high end, France is buying 12 A330 MRTT tanker-transports to replace 14 C-135 variants, and 5 Airbus passenger jets. They are significantly larger than the C-135s and A310s they replace, albeit slightly smaller than the 2 A340s. They will be delivered in a conventional core configuration, powered by Rolls-Royce Trent 700 engines and equipped with both Cobham’s underwing hose-and-drogue refueling units and the Airbus Refuelling Boom System (ARBS). France will be the 1st customer for an “MRTT Enhanced” option that upgrades the mission system, flight controls, IFF, and refueling boom, while providing better cruising performance.

The planes are expected to carry full defensive systems, and can be configured in a variety of layouts for carrying up to 271 passengers. MEDEVAC arrangements will include the French MORPHEE intensive care module, which can carry up to 10 patients and 88 passengers. Cargo payload can be up to 40t of containerized freight.

C-160 Transall
(click to view full)

At the lower end, France has modernized the avionics on its 14 C-130H medium tactical transports, and bought a fleet of 27 new CN-235 light tactical transports from Airbus to offset the decrepit state of their 52-plane C-160 fleet. The ultimate solution involves around 50 A400M Atlas medium-heavy tactical transports, which finally began delivery in “austere configuration” by 2013. The A400M is covered in-depth via its own DII FOCUS article.

If the appropriate Cobham plc wing pods are added, fully equipped A400Ms will be capable of refueling both jets and helicopters, though their 4-turboprop design will make them less efficient than the A330s in the jet refueling role. They’ll also become France’s core cargo airlifters, with short take-off capability and in-air refueling ability that will let them carry 35t+ loads intra-theater distances. They won’t be as efficient as the new A330s for long-range cargo work, but their ability to carry tactical loads like vehicles, helicopters, etc. will more than make up for it.

France’s future fleet is expected to be:

• 12 Airbus A330-MRTT Phenix aerial tanker-transports
  
• 50 Airbus A400M Atlas tactical transports with aerial refueling capabilities
  
• 27 Airbus CN235 light tactical transports

Contracts & Key Events 2018

A330 order coming at last; KC-135R upgrade contract; A330 training has already begun.

A330 refuels A400M
(click to view full)

September 25/18: Scheduled for 2023 The French government is reaffirming that it will speed up the upcoming delivery of 12 aerial tankers to the French Air Force. The A330-200 MRTT is a derivative of the Airbus A330, and was designed from the outset to be able to function as an aerial tanker and a transport aircraft at the same time. The French Air Force wants the Phénix by 2023, two years earlier as initially envisaged. The new tankers will replace France’s fleet of ageing C-135FR and KC-135R aircraft, some of which are close to 60 years old. The acquisition is part of a number of equipment modernization measures included in the 2019-2025 military budget law.

2014

Nov 21/14: A330. France’s DGA hammers out an agreement with Airbus to supply A330 MRTT tanker-transports, but they haven’t formally signed a contract yet. The EUR 3 billion program is expected to cover 12 A330 planes in France’s specific “Phenix” configuration, It also includes associated support and training systems, spares, ground support equipment, and an initial 5 years of in-service support from first delivery.

Purchases are expected to take place with an initial order for 1 plane before the end of 2014, a major order for 8 planes in 2015, and then 3 more that will be ordered at some future date. The 1st flight of the A330-MRTT Enhanced variant is expected in fall 2015, with flight testing beginning in earnest by July 2016. Initial delivery to the Armee de l’Air is expected to take place in 2018, followed by the 2nd A330 in 2019, and then the rest at a rate of 1-2 per year. In other words, France’s C-135s and existing Airbus transports will be completely replaced somewhere between 2024 – 2029.

France’s A330 MRTTs will use the standard basic configuration: Rolls-Royce Trent 700 engines, 2 underwing Cobham hose-and-drogue pods, and the high-flow, fly-by-wire Airbus Refuelling Boom System (ARBS). French “Phenix” aircraft will also benefit from A330 Enhanced improvements that include upgraded an mission system, flight controls set, IFF, and refueling boom, while providing better cruising performance. Communications and defensive systems, and internal outfitting, are also expected to receive some customization. Once the contract is signed, France will become the A330’s 6th military customer after Australia (5), Britain (13), Saudi Arabia (6), Singapore (4), and the UAE (3); with India (6) and Qatar (2) waiting in the wings. Sources: French DGA, “Le ministre de la Défense annonce la commande de 12 avions MRTT” | Airbus DS, “France announces order for Airbus A330 MRTT air-to-air refuelling aircraft” | Defense News, “France orders 12 “Phoenix” aerial refuellers from Airbus for €3 Billion” | Le Journal de L’Aviation, “Jean-Yves Le Drian officialise les A330 MRTT Phenix”.

12 A330-MRTT Phenix

Oct 28/14: A330. The French Ministry of Defense formally approves the launch of the program to buy 12 A330-MRTTs, during a session of its investment committee. Airbus had reportedly submitted a proposal back in February 2014. Sources: Le Journal de L’Aviation, “Jean-Yves Le Drian officialise les A330 MRTT Phenix”.

Aug 21/14: KC-135R. The 1st modernized KC-135RG is delivered to Istres AB in France, by an American crew who ferried the aircraft from San Antonio.

The upgrades include avionics that meet the RENO Global Air Traffic Management standard, creating navigation standards identical to those of modernized American KC-135s. They also preserved the on-board intercom that’s unique to the French planes, fitted a high-frequency wire antenna, and re-configured the aircraft to carry standard cargo pallets. Sources: French Armee de l’Air, “Le premier KC-135 renove se pose e Istres”.

June 10/13: KC-135R. Rockwell Collins Inc. in Cedar Rapids, IA receives a $44.5 million firm-fixed-price contract to install the KC-135 Global Air Traffic Management Block 40 Upgrade into 3 French KC-135R aerial tankers.

France flies 3 KC-135Rs alongside its 11 C-135FRs, and the Block 40 upgrade is a well proven solution. The USA finished its own KC-135R fleet retrofits in 2010.

Work will be performed at Cedar Rapids, IA and is expected to be complete by Nov 10/15. The USAF Life Cycle Management Center/WKKPA at Tinker AFB, Okla., is the contracting activity (FA8105-13-C-0001).

KC-135 RG upgrade

April 7/14: Training. An AirTanker release highlights the efforts of Armee de l’Air pilot Capitaine Francois Gilbert, who is on secondment to RAF No.10 Squadron at Brize Norton:

“The French Air Force is expected to place its first order for the MRTT later this year. With the first of 12 tankers built by Airbus Defence and Space to be delivered by 2018, they will replace France’s 14-strong [refueling and transport] fleet of C135 FR jets, three A310 and two A340.

“I’m here to build an understanding of the MRTT, its capability and training required to fly it so that when I go back, the knowledge and understanding that I have gained here, can be applied to the French AAR programme”, he says.”

It also provides a solid foundation if France should need to buy FSTA flight hours before 2018, though that’s looking less likely. Sources: AirTanker, “Entente [Most] Cordiale”.

2010 – 2013

C-135R upgrades; A330 delays; Lancaster House accord with UK offers a fill-in A330 option, but France doesn’t bite.

C-135FR & JAS-39C/Ds
(click to view full)

Feb 22/12: A330. Defense Aerospace reports on a 2012 news conference involving French DGA head Lauren Collet-Billon. He leaves the door open to participation in Britain’s FSTA, but makes it clear France will have its own tankers:

“Although it may buy tanker capacity from the Royal Air Force “if the flight hour price is affordable,” France intends to buy its own fleet of A330 tankers which are required to support the French air force’s sovereign nuclear strike mission. These will be ordered in 2013.”

Due to budget difficulties and other commitments, they are not. Sources: Defense Aerospace, “France Could Loan Rafales to Royal Navy”.

Nov 18/11: A330. AIN reports that Libyan lessons learned have made new Airbus A330 MRTT aerial tankers a bigger priority for France, alongside their aging C-135FRs.

An interim contract for 5-7 A330 MRTT planes is now expected in 2013, which means that Britain’s AirTanker LLC partnership is less likely to see any French leasing contracts (q.v. Nov 2/10). Sources: AIN, “French Air Force Chief: Tankers Soon, but Anglo-French UAV Much Later”.

Nov 2/10: UK & France. The “UK-France Summit 2010 Declaration on Defence and Security Co-operation” has this to say:

“15. Air to air refuelling and passenger air transport. We are currently investigating the potential to use spare capacity that may be available in the UK’s Future Strategic Tanker Aircraft (FSTA) programme to meet the needs of France for air to air refuelling and military air transport, provided it is financially acceptable to both nations.”

France currently flies 14 C-135FRs for aerial refueling, and will probably need to keep these Boeing 707 relatives in service for refueling in combat zones and nuclear strike missions. Their planned replacement buy of A330 MRTT refueling and transport planes has been pushed back due to budget concerns, however, creating a need for a stopgap than can lower the C-135FR fleet’s flight hours, and fill some of the gaps. The FSTA tankers will be downgraded versions of France’s own future buy, making it an attractive option that could even result in a reduced future purchase of A330s for the Armée de L’Air.

On the British side, more hours bought by military users beyond Britain makes key modifications like defensive systems easier to justify, and easier to handle operationally because the need for civilian conversions and removal/ modification is reduced.

Oct 12/10: C-135FRs. The French Air Force recaps the C-135FR modernization, and says that the first modified C135 is expected to be delivered in early 2011. Delivery of the equipment will continue until 2013. Sources: French Armee de l’Air, “Renovation des avions ravitailleurs de l’armee de l’air”.

Jan 14/09: C-135FRs. France will replace the avionics in its 11-plane C-135FR fleet, in order to comply with ICAO requirements and fly in civil air space. Modified planes will become C-135FR RENO2.

The EUR 37 million (almost $50 million) installation contract will be handled by Air France, who is also handling a similar set of upgrades to E-3F AWACS fleet. The planes have similar base airframes, with the tankers using the militarized C-135 as their base, and the E-3Fs using the civil 707-320B. DGA release [in French] | Flight International.

C-135FR RENO2 upgrade

July 7/10: A330 delayed. French defense minister Hervé Morin tells the parliamentary defense committee that France will postpone program contracts worth EUR 5.4 billion, in an effort to slash EUR 3.5 billion from the military budget over the next 3 years. France’s plan to replace its aged C-135FR aerial tankers with 14 A330-200 MRTT aircraft by 2015 is one of the delayed programs, even though it’s critical to many of the goals in the government’s 2009 defense white paper.

The parliamentary committee reportedly asked Morin if sharing the British FSTA service might help as a stopgap. If so, it would be a partial one at best. Not only is FSTA unable to operate in even low-threat areas, a commercial service cannot be used to refuel nuclear-armed strike aircraft. That was not an issue for Britain, whose nuclear weapons are limited to submarine-launched Trident missiles. Defense News. “France To Delay Air Programs: Mirage Jets, Tankers, C2 Hit by Cuts”.

Additional Readings

• Airbus Defence & Space – A330 MRTT: the 21st Century Benchmark.

• French DGA – L’avion multirole de ravitaillement en vol et de transport – MRTT.

• DII FOCUS – Airbus’ A400M Aerial Transport: Delays, Development, and Deployment.

• DID – With A400M Delayed, France Beefs up CN-235 Fleet.

Other A330-MRTT Customers

• DII FOCUS – Britain’s A330 Voyager FSTA: An Aerial Tanker Program – With a Difference.

• DID – Saudi Arabia’s A330 MRTT Tankers.

• DID – Singapore’s Aerial Tanker Buy.

• DID – UAEAF’s Long Reach: 3 Airbus A330 Tankers for the UAE.

• DID – India Selects Airbus A330 MRTT in Aerial Tanker Competition.

• DID – Qatar’s Air Force Multipliers: Aerial Tankers and AEW&C.

Americas

The US Army is increasing its processing power as part of the Defense High Performance Computing Modernization Program. Cray Inc. will increase the processing capability of the current Cray XC 40 High Performance Supercomputer under this $12.5 million firm-fixed-price contract. The supercomputer consists of 101,312 computer cores, 32 general-purpose computing on graphics processing units, or GPGPUs, and 411 terabytes of memory, and provides 3.77 petaflops of peak computing capability. The supercomputer is at the heart of the ERDC, which conducts R&D in support of the soldier, military installations, and civil works projects, as well as for other federal agencies, state and municipal authorities, and with US industry through innovative work agreements. The contract also includes the purchase of 2083 additional nodes compatible with the existing system architecture. Work will be performed at the US Army Engineer Research and Development Center DoD Supercomputing Resource Center (ERDC DSRC) in Vicksburg, Mississippi and is expected to be completed by October 31, 2018.

Boeing is being tapped to arm the Navy’s F/A-18E/F and EA-18G aircraft. The awarded contract modification is valued at $40.3 million and provides for the procurement of aircraft armament equipment (AAE) in support of 12 Super Hornets and 14 Growlers. The AAE program procures, modifies and upgrades common bomb racks, peculiar bomb racks, missile launchers, and provides related support for Navy and Marine Corps platforms. Work will be performed at multiple locations, including – but not limited to – Meza, Arizona; St. Louis, Missouri and Minneapolis, Minnesota. The contract is set to run through November 2022.

General Dynamics Mission Systems is being contracted to sustain essential systems on SSBNs and SSGNs. The contract modification is valued at $12.8 million and provides for sustainment of Fire Control Systems installed on US and UK SSBNs, as well as the Attack Weapon Control System on US SSGNs. The contract further includes relevant training and support equipment. The Fire Control System delivers data required to monitor the launch sequence of ballistic missiles. The Attack Weapon Control System (AWCS) consists of an integrated Launch Control System interfaced with the Tactical Tomahawk Weapon Control System and the Captain’s Information and Control Station, having the capability to launch up to 154 missiles from a maximum of 22 missile tubes. Work will be performed at multiple locations in the US and the UK, including GD’s facility in Pittsfield Massachusetts. The contract has a performance period of five years and is expected to e completed by September 2023.

Middle East & Africa

The governments of Jordan, Morocco, Afghanistan, Senegal, Tunisia and Pakistan are set to receive additional rifles as part of US Foreign Military Sales. Colt will provide the countries with up to 10,000 additional M4 and M4A1 5.56mm carbine rifles at a cost of $57.7 million. The M4/M4A1 Carbine is a lightweight, gas operated, air cooled, magazine fed, selective rate, shoulder fired weapon with a collapsible stock. It is now the standard issue firearm for most units in the US military. The M4 offers a collapsible buttstock, flat-top upper receiver assembly, a U-shaped handle-rear sight assembly that could be removed, and assortment of mounting rails for easy customization with a variety of sight, flashlight, grenade launchers, shotgun attachments, etc. Like its predecessor the M16, the M4 also has a reputation as an excellent weapon – if you can maintain it. Work will be performed at Colt’s facility in West Hartford, Connecticut, and is scheduled for completion by September 2019.

Saab is currently recommending that the South African Air Force (SAAF) adopts the latest software update for its JAS39C and JAS39D Gripen fighter jets. MS 20 is the latest step in Saab’s process of constant capability expansion. The MS 20 upgrade includes integration of the MBDA Meteor beyond-visual-range air-to-air missile and Boeing GBU-39 Small-Diameter Bomb, improved radar modes and a new laser designation pod (LDP) among other things. The new software will would also increase the performance of the Gripen’s radar and would allow the fitting of an automated Ground Collision Avoidance System. The Swedish Air Force was using MS 20 to improve the reconnaissance performance of its Gripens.

Europe

The US is sending missiles to European allies under its FMS program. The governments of Estonia, Lithuania and Ukraine will each receive an unspecified number of Javelins under this $27.6 million contract modification awarded to Raytheon/Lockheed Martin Javelin JV. The Javelin is a portable anti-tank weapon, which is shoulder-fired but can also be installed on tracked, wheeled or amphibious vehicles. The Javelin system consists of the CLU and the round. With a carry weight of 6.4kg, the CLU incorporates a passive target acquisition and fire control unit with integrated day sight and thermal imaging capabilities. This contract also includes sales to the governments of Australia, Turkey and Taiwan. Work will be performed in Tucson, Arizona and is scheduled for completion by August 31, 2021.

The State Department is determined to approve a FMS to the United Kingdom. If approved, the UK would receive three SEAL Delivery Vehicles (SDV) MK 11 Shallow Water Combat Submersibles (SWCS) for an estimated cost of $90 million. The SWCS is a manned submersible and a type of swimmer delivery vehicle which will deliver US Navy SEALs and their equipment for special operations missions. The SWCS is deployable from surface ships, land, and Dry Deck Shelters on submarines. The SWCS carries passive sonar the ability to sense electromagnetic energies like radars, a navigation system with INS/ secure GPS capability, secure wireless underwater communication links, and the ability to operate down to at least down to 190-300 feet undersea. Included in the contract are spares, relevant equipment, manuals and other support services. Prime contractor will be Teledyne Brown Engineering.

Asia-Pacific

Chinese defense manufacturer Ziyan is showcasing its new Blowfish I VTOL UAV at the Africa Aerospace and Defence (AAD) 2018 exhibition in South Africa. The Blowfish I is a multifunctional and universal unmanned helicopter. It can flight in ultra-low altitude to medium-altitude environment, complex geography and in all-weather conditions. According to the company, the new UAV has a maximum take-off weight of between 28 and 50 kg and an endurance of between 45 to 60 minutes. It is electrically powered and has a payload of 12 kg that can include different types of weapons. The company also revealed that the Blowfish I is currently entering service with the People’s Liberation Army Navy.

Today’s Video

Watch: REVEALED! The UK’s New Challenger 2 tank known as BLACK NIGHT

Americas

The US Air Force is ordering 18 additional KC-46A tanker aircraft from Boeing. The contract has a value of $2.8 billion and includes spares and support equipment for the Lot 4 aircraft. The KC-46A is a wide-body, multi-mission aircraft capable of transporting fuel, cargo, passengers and patients. The airframe is based on the KC-767 but comes with modifications like a cargo door, an advanced flight deck display and militarised modification ranging from an air refuelling operator station to threat detection and avoidance systems. Work will be performed at Boeing’s facility in Seattle, Washington and is expected to be completed by January 2022.

Lockheed Martin is being tapped to advance its development of the Joint Air-to-Surface Standoff Missile Extreme Range (JASSM-XR). The cost-plus-fixed-fee contract is priced at $51 million and includes all all-up round level systems engineering and programmatic activities to align and phase the work necessary to design, develop, integrate, test, and verify component and subsystem design changes to the JASSM-XR baseline electronics, hardware, firmware, and operational flight software. Few details about the JASSM-XR are known to this date, however the missile will likely be a 5,000 pound-class weapon that can fly out to 1,000 nautical miles to deliver a lethal payload up to 2,000 pounds precisely on target. Work will be performed at Lockheed’s location in Orlando, Florida and is scheduled for completion by end of August, 2023.

L-3 Communications Vertex Aerospace is set to support the Navy’s fleet of T-45 Goshawk trainers. The $202.9 million contract modification provides for a mix of maintenance, logistics and engineering support operations needed to keep the trainer aircraft flying. The Goshawk is used to train US Navy and Marine Corps pilots for conversion into the F/A-18A-D Hornet, the F/A-18E/F Super Hornet family, the AV-8B Harrier II Plus, and the EA-6B Prowler. And also serves as a lead-in fighter trainer (LIFT) aircraft to future platforms like the F-35 Joint Strike Fighter variants. Work will be performed at multiple Naval Air Stations. They include NAS Kingsville, Texas; NAS Meridian, Mississippi; NAS Pensacola, Florida and NAS Patuxent River, Maryland. The contract will run through September 2019.

The new US Air Force’s combat rescue workhorse will soon make its first test flight. The HH-60W, or Pave Hawk II will soon replace the ageing HH-60G Pave Hawks. The Whiskey boasts longer range, and a specially-developed tactical mission kit that will give pilots and para-rescue crew information from an array of sensors. The HH-60W can be deployed in casualty evacuation, medical evacuation, non-combatant evacuation missions, civil search-and-rescue, humanitarian aid, disaster relief, and insertion or extraction of combat forces. The first two HH-60Ws are currently undergoing several months of instrumentation checks at Sikorsky’s West Palm Beach, Florida facility. The Pave Hawk II program calls for the delivery of 112 helicopters at a cost of $7.9 billion. The Air Force expects to fly its first helicopter by March 2020, and says that deliveries will likely run through 2029.

Middle East & Africa

The US government is releasing a $1.2 billion military aid package to Egypt. The money includes $1 billion for the current 2018 budget year and $195 million appropriated for 2017 that would have had to have been returned to the Treasury had it not been spent by end of September. The funds were initially withheld by formed Secretary Rex Tillerson due to Egypt’s poor human rights record. Secretary of State Mike Pompeo, however is determined to continue with the obligations and expenditures of Foreign Military Funds as means to strengthen the US security cooperation with Egypt. Egypt has a variety of US-weapons in its inventory. They include F-16s, Apache helicopters, E-2C Hawkeye aircraft and the AGM-84 Harpoon. Egypt long has been a key US ally in the Middle East, receiving nearly $80 billion in military and economic assistance over the past 30 years.

Europe

UK defense company Meggitt is deepening its involvement in the South Korean KF-X fighter program. The company will supply Korea Aerospace Industries (KAI) with engine vibration monitoring units (EVMUs) to be installed on KF-X prototypes. Meggitt already delivers fire detection and bleed air leak detection systems, produces wheels and brakes, and designs the jets sensors and displays. The South Korean Air Force plans to replace its ageing F-4D/E Phantom II and F-5E/F Tiger II aircraft once the production starts in the mid-2020s.

Asia-Pacific

The State Department is determined to approve a possible FMS to Japan. The Japanese government is requesting the purchase of up to nine additional E-2D Advanced Hawkeye aircraft. The potential deal has a value of up to $3.1 billion. The purchase would also include information and communication terminals, APY-9 radars and a variety of other systems. The carrier-capable “mini-AWACS” aircraft, is designed to give long-range warning of incoming aerial threats. If the sale is approved Japan’s fleet of E-2Ds would increase to 23. Principal contractor will be Northrop Grumman.

A team of six Indian Air Force personnel is currently on a training mission in France. The team consists of a fighter pilot, an engineer and four technicians who are being trained on the Rafale jet, first of which will be introduced to the IAF in September 2019. The French-made jets were bought under a $8.8 billion emergency purchase to counter-weight a drop in IAF capabilities and fleet strength. Delivery of all 36 fighter aircraft is expected to be completed by end of 2022.

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Watch: US Navy Ships Sortie Out of Naval Station Norfolk Prior to Hurricane Florence

Americas

The US Navy is ordering propulsors and tailcones for its next batch of submarines. The $37.5 million contract modification enables BAE Systems Platforms & Services to procure and manufacture four ship sets of fixed propulsor, tailcone and associated hardware for Virginia-class submarines SSN 800 through SSN 803. The Virginia-class nuclear submarines have several innovations over the Los Angeles class that significantly enhance its warfighting capabilities with an emphasis on littoral operations. The redesigned propulsor makes the Virginia-class submarines quieter than the Russian Akula-class and other fourth-generation attack submarines. Tailcones protect the hoses exiting the rear of the submarine and maintain stability during rapid accent. Work will be performed in Louisville, Kentucky; Minneapolis, Minnesota and Jacksonville, Florida. The contract is expected to be completed by October 2022.

DRS Network & Imagining Systems is being tapped to provide the US Army with the new Joint Effects Targeting System (JETS). The firm-fixed-price contract has a value of $231.4 million and will run through September 2028. The lightweight laser designator rangefinder, is a handheld, portable device for target observation, location, and designation. The primary components are the Target Locator Module (TLM) and the Laser Designator Module (LDM). The hand-held system includes a GPS; celestial compass; precision azimuth vertical angle module, or PAVAM; and a laser designator to enable forward observers to accurately identify a target and drop precision guided munitions such as a Hellfire missile or Excalibur 155mm artillery round to within 10 meters of the target. Work locations and relevant funding will be determined with each order.

The Air Force is increasing the budget for its Adaptive Engine Transition Program (AETP). United Technologies is receiving a cost-plus-incentive-fee modification priced at $436.6 million for the design, fabrication, integration and testing of its flight-weight adaptive engines. Adaptive engines represent a revolutionary advance in turbine engine technology. The adaptive engine optimizes performance and fuel efficiency across the flight envelope by utilizing a third stream of air to optimize the engine at different flight conditions. The three-stream engine technology is considered critical in developing the Air Force’s sixth-generation fighters and will be included in the F135 engine that powers the F-35 JSF. The modification increases the total value of the contract to $1.4 billion. Work will be performed at the company’s location in East Hartford, Connecticut and is expected to be completed by end of February 2022.

Middle East & Africa

The Egyptian Navy is adding another corvette to its fleet. The ENS Port Said is the second of four Gowind 2500-class vessels and is the first modern warship built in Egypt. The Gowind 2500 is designed by France’s Naval Group, formerly known as DCNS. In 2014 Egypt became DCNS’ second customer for the multi-mission combat vessel when it ordered four ships at a cost of $1.3 billion, with one, El Fateh built in Lorient and the other three being built in Egypt. The ships feature a of sea-proven steel monohull design, can accommodate 50 to 75 crew members and can travel at a maximum speed of 27 knots. The vessels are equipped with 16 VL-MICA surface-to-air missiles and eight Exocet MM40 surface-to-surface missiles as well as one 76mm and two 20mm guns.

Turkish Aerospace Industries (TAI) is currently testing the T625 helicopter. The Turkish Light Utility Helicopter (TLUH) is the country’s first indigenously-made 5 ton class helicopter. T625 is a new generation, twin engine rotorcraft designed for military, paramilitary and civilian purposes. Full-rate production of the T625 is expected to commence in 2021.

Europe

Flight Global reports that global fighter jet manufacturers are readying themselves to pitch their products to Poland’s “Harpia” fighter tender. Warsaw needs to replace its ageing fleet of RAC MiG-29 fighters and Sukhoi Su-22 ground-attack aircraft, but hasn’t defined its specific requirements yet. Boeing views its combat-proven F-15 and F/A-18E/F Super Hornet as potential contenders. Other competitors will likely include the Eurofighter consortium with the Typhoon, Lockheed Martin which could potentially offer either the F-16 Block 70/72 or F-35, and Saab, which is expected to promote its Gripen E.

Asia-Pacific

Chinese defense contractor AVIC is introducing a light combat variant of its FTC-2000 trainer. The FTC-2000G is the latest derivative of the Guizhou JL-9 supersonic advanced jet, and is an export-oriented lightweight multirole combat aircraft. The model can have up to seven hardpoints and a maximum payload weight of 3,000 kg. According to Flight Global, the Chinese aircraft manufacturer says that assembly of the aircraft started in February at the Anshun factory of its Guizhou Aviation Industries Co unit. It is now scheduled to make its first flight in late September

The government of Australia is ordering more than a thousand additional military trucks and modules from Rheinmetall. The $496 million deal is part of Australia’s Land 121 Phase 5B project. The company is already supporting the Australian Defence Force with 2,500 medium- and heavyweight military trucks worth a total of $1.4 billion.

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Watch: USS Gerald R. Ford (CVN 78) is replenished at sea

Americas

Rosemount Aerospace is being tapped to provide the Navy with angle of attack (AoA) transmitters for its F/A-18E/F and EA-18G aircraft. The company will procure a total of 360 transmitters at a cost of $7.1 million. The AoA transmitter is is mounted on the fuselage with the sensing probe extending through the aircraft fuselage. The probe provides an AoA indication by sensing the direction of local airflow. Navy planes usually have to perform takeoff and landing operations from a very short aircraft carrier runways; during those operations the transmitter measures the AoA directly and help the pilot fly close to the stalling point with greater precision. Work will be performed in Burnsville, Minnesota and is expected to be completed in September 2019.

General Dynamics is being contracted for work on the USS Bonhomme Richard. The awarded firm-fixed-price contract has a value of $218.7 million and provides for a combination of maintenance, modernization, and repair work on the Wasp-class vessel during its docking phased maintenance availability. From 2012 to earlier this year the USS Bonhomme Richard was stationed in Sasebo, Japan and served there as the flagship of the Amphibious Force 7th Fleet’s expeditionary strike group. The Landing Helicopter Dock amphibious assault ship is designed to deploy helicopters, landing craft, supplies and personnel. The Richard is capable of embarking Harrier and F-35B fighter jets. Its one of eight Wasp-class vessels. Work will be performed in San Diego, California and is scheduled for completion by May 2020.

ATK Launch Systems is being contracted to keep the US land-based Intercontinental Ballistic Missiles (ICBMs) in shape. The contract has a value of $86.4 million and provides for component testing, evaluation, engineering support and disposal for all stages of Minuteman and Peacekeeper systems. ICBMs have been part of the US primary strategic deterrence capability for the past 50 years, as part of a nuclear-armed triad that also includes submarine-launched ballistic missiles and long range heavy bombers. The Minuteman III entered service in 1970 and is currently the only operational ICBM. The Peacekeeper, also known as MX was introduced in the 1980’s as a first-strike weapon capable of carrying up to 10 nuclear warheads to destroy Soviet missile silos. Work will be performed in Utah.

Alliant Techsystems Operations and General Dynamics are set to compete for each order of a $1.8 billion contract. The companies will provide the US military with 20mm, 25mm, 30x113mm, and 30x173mm medium caliber ammunitions. 20mm rounds are the standard load of many US aircraft like the F/A-18 which is equipped with a M61A1 six-barrel Gatling gun. 25mm ammunition fired by the Bushmaster cannon which can be found on Navy ships and the Bradley. The AH-64 Apache fires 30×113 mm rounds from its M230 Chain gun, while 30x173mm rounds are fired from the GAU-8 Avenger minigun installed on the A-10 Thunderbolt II. Work locations and funding will be allocated with each order. The contract is set to run through September 2023.

Middle East & Africa

The Kingdom of Jordan is strengthening its bilateral relationship with the Philippines. The two countries recently signed a memorandum of understanding (MOU) on Defense Cooperation between the Jordan Armed Forces-Arab Army and the Department of National Defense of the Philippines. Under this MOU, Jordan will transfer two of its $18 million AH-1F Cobra attack helicopters to the Philippines as means to support the country’s ongoing counter-terror efforts. The helicopters will be turned over to the Philippine government in July 2019 after the training of Filipino pilots.

Europe

France is joining the 21st space race amid growing fears of a future conflict. French Defense Minister Florence Parly plans to invest a total of $4.2 billion to renew and upgrade French military satellites and to protect its highly sensitive networks from prying eyes. “We will install surveillance cameras on our satellites so we will know who is approaching us,” Parly said during an interview with a French TV station. Last Friday Parly openly accused Russia of eavesdropping on secure military communications and said the Russian satellite has “big ears” and is “well-known but a bit indiscreet” and added “France is and will be a space power.” On June 28, the French parliament adopted a bill on military planning for 2019-2025, envisaging the increase of defense spending up to 2% of the country’s GDP. The French investment plan comes weeks after US President Donald Trump announced a plan to create a “Space Force”, a new branch of the US military by 2020.

Asia-Pacific

The Taiwanese government plans to significantly boost its F-16 budget. The Ministry of National Defense will need about $4.6 billion to maintain parity between the upgraded F-16s and the Chinese People’s Liberation Army Air Force’s tactical fighters. A large chunk of the budget will be spend on a variety of air-to-air missiles and automated ground collision avoidance systems. The ROCAF has a total of 115 F-16s, of which 24 are out of service for upgrades at any point and 16 are in the USA for training at Luke AFB. By 2023 Taiwan will have an updated fleet of F-16Vs. The latest variant of the fighter jet integrates advanced capabilities as part of an upgrade package to better interoperate with fifth-generation fighters, including the F-35 and the F-22. The Viper can be deployed in suppression of enemy air defense missions, air-to-ground and air-to-air combat, and deep interdiction and maritime interdiction missions.

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Americas

Raytheon is being tapped to provide the US Navy with logistics services needed to maintain the night-vision systems installed on its rotor and tilt-rotor aircraft. The five-year performance-based logistics contract amounts to $59.7 million and sustains the availability of the Forward Looking Infrared (FLIR) systems installed on the CH-53 and V-22. The US Marine Corps currently has 165 CH-53 Super Stallions in service. The helicopter is equipped with the lightweight, high performance AN/AAQ-29A FLIR on a 12 inch turret. The FLIR pod helps helicopter pilots with low-level navigation to high altitude long-range targeting. The V-22 Osprey has a nose-mounted AN/AAQ-27 FLIR that provides navigation and target recognition capabilities in darkness and low-visibility conditions. Work will be performed at Raytheon’s facilities in McKinney, Texas; El Segundo, California and in Jackson, Florida.

The US Army is spending $491 million on generators. The firm-fixed-price contract awarded to Cummins Power Generation provides for the production of several Advanced Medium Mobile Power Sources (AAMPS). AAMPS has been developed under the Army’s Advanced State of the Art Power Components Program, which was devised to sustain a reliable electrical power availability on the battlefield. The current family of AMMPS consists of five versions: the 5 kW, 10kW, 15kW, 30kW, 60kW generators. In Afghanistan this new generation of generators saves about 300,000 gallons of fuel each month. The Army needs a reliable power network to control its tanks, aircraft and battle formations which heavily relies on electrical powered communication technologies. The contract is set to run until August 2022.

L-3 Communications will produce a number of Electro-Optic/Infrared/Laser Designator payloads for the US Army’s RQ-7Bv2 Shadow UASs. The firm-fixed-price contract is valued at $454 million and is expected to be completed by August, 2023. The Shadow v2 is the latest model of the Shadow series. It is an all-digital system, optimized for new multi-mission, single-sortie profiles and manned/unmanned teaming. The UAS has a wingspan of 20ft, and can provide a 9 hour coverage at altitudes of up to 18.000ft. L-3s payload will provide near-real-time reconnaissance, surveillance and target acquisition, as well as intelligence and battle damage assessment capabilities.

Aviall Services, a subsidiary of Boeing will provide the US and Australian Navies with essential components for the P-8A Poseidon. The $23.7 million firm-fixed-price contract procures six quick engine change & engine build up components. The engine’s used on the P-8 are designed so that the whole assembly can be removed from and replaced in the vehicle as a unit. Under the Quick Engine Change concept, if a unit requires a major engine job, the power plant can be removed and another one quickly installed. The Poseidon is powered by a CFM56-7B27AE engine is produced by CFM International belongs to the family of high-bypass turbofan aircraft engines. Work will be performed at the company’s facilities in Everett, Washington and Dallas, Texas. The US Navy and Australia will pay $15.8 and $7.9 million respectively. The contract expected to be completed in May 2020.

Middle East & Africa

The United Arab Emirates will receive a number of sensors, designators and processors for its AH-64E Apache helicopters as part of a US Foreign Military Sale. Lockheed Martin will produce modernized day sensor assembly (M-DSA) kits, laser range finder designators, and flight code processors at a cost of $44.8 million. The M-DSA, also known as Arrowhead, is an electro-optical and fire control system that the 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. Tin 2010, the UAE bought a total of 60 Apaches in a $5 billion deal. Work will be performed at the contractor’s location in Orlando, Florida and is scheduled for completion by the end of April, 2022.

Reuters reports, that Yemen’s Houthi rebels launched two Zelzal-1 missiles towards Saudi Arabia. The Zelzal-1 is part of Iran’s short-range missile systems. It is a solid-fuel heavy artillery rocket, that carries a 300 lb. warhead to a range of up to 100 miles. Saudi Arabia is leading a western-backed alliance of Sunni Muslim Arab states trying to restore the internationally recognized government of Yemeni President Abd-Rabbu Mansour Hadi, ousted from the capital Sanaa by the Iran-aligned Houthis in 2015.

Europe

One Hellenic Air Force pilot was killed when his T-2 Buckeye aircraft crashed during a routine training flight. The T-2 was once the Navy’s primary early flight training and carrier indoctrination aircraft. Every jet-qualified Naval Aviator and virtually every Naval Flight Officer from the late 1950s until 2004 received training in the T-2 Buckeye, a length of service spanning four decades. Greece bought a total of 40 T-2s. A statement by the Greek Air Force said the aircraft crashed due to mechanic failure 2 nautical miles south of the airport in Kalamata. The co-pilot survived by parachuting to safety. In the US, the Buckeye was replaced by the T-45 Goshawk.

Jane’s reports that the French SF 1/67 Pyrénées Helicopter Squadron is currently training with a new 20mm cannon installed on its multi-mission Caracal helicopters. The Caracal is a special variant of Eurocopter’s EC725 Cougar, specifically designed for or Combat Search and Rescue (CSAR) missions. Typically they are equipped with MAG 58 machine guns, which limit the helicopter’s in-air refueling capability. Nexter’s SH-20 retractable door mounting is built around the M621 cannon, and is designed to provide the Caracal with an air-to-ground fire-support capability. The unit expects to reach an operational capability in the coming weeks.

Asia-Pacific

China’s People’s Liberation Army Air Force (PLAAF) will soon receive the last batch of ten Sukhoi Su-35S from Russia. The Su-35s is Russia’s most advanced fighter aircraft, which can compete with America’s upgraded ‘teen series’, the JAS-39, the Rafale and the Eurofighter. The per-unit cost of the fighter jet, is estimated to be about $85 million. The Diplomat notes, that Russia was initially reluctant to sell the fighter jets to China as it feared Chinese reverse engineering the plane’s powerful thrust-vectoring engine. In 2015, China became the first international customer of the Su-35S when it ordered 24 jets for a total of $2.5 billion.

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Watch: When you should expect the Air Force to announce its next trainer aircraft

Americas

Phoenix International Holdings is being tapped to provide the US Navy with the continued maintenance and operation of its Submarine Rescue Diving and Recompression System (SRDRS). The awarded cost-plus-fixed-fee modification has a value of $29.9 million and ensures that the rescue systems are maintained in a high state of readiness so that they can be rapidly deployed on a 24/7 basis. The SRDRS is a tethered, remotely-operated vehicle that is placed into the water and attaches to the disabled submarine’s hatch. It can be transported via sea, air and land, and doesn’t need a mother submarine or dedicated surface support ship, making it more more mobile than its predecessor. The system includes an air transportable rapid assessment/underwater work system, a decompression chamber system and a pressurized rescue module. The SRDRS was first delivered to the US Navy in 2008. Work will be performed at the contractor’s location in San Diego, California and will run through August 2019.

Jane’s reports that the US Navy plans to fast-track the integration of a new gun system onto the MH-60S. The MH-60S entered service in 2002 as a replacement for the US Navy’s Boeing CH-46D Sea Knight. Its roles encompass troop transport, search and rescue, and other standard roles. However their weapons package either includes the GAU-17 M134 Minigun or the GAU-21 .50 calibre heavy machine gun limiting the helicopter to either perform SAR or SUW missions. The new externally mounted gun system (EMGS) will bridge this gap, essentially making the MH-60S capable to simultaneously perform defensive air patrols while maintaining its SAR capability. Five n-flight live trials are planned for later this year.

The USS Abraham Lincoln is currently hosting several F-35Cs from the Strike Fighter Squadron 125. The pilots and aircraft are currently conducting their Operational Test-1 (OT-1) phase, which evaluates if the JSF is ready to operate within a carrier air wing. The C-variant of the JSF is the most expensive one and features 30% more wing area, larger tails and control areas and wingtip ailerons. Its structure is strengthened so that it can withstand hundreds of launch and recovery rounds. The F-35C is expected to be the US Navy’s high-end fighter, as well as its high-end strike aircraft. OT-1 helps give the Navy an assessment of how the aircraft would perform on deployment. Rear Adm. Dale Horan, director, Joint Strike Fighter Fleet Integration Office is asking, “Can we maintain it? Can we get the parts? Can we get it airborne? Can we repair it if it has a problem? ” Those are the kinds of things the Navy will have to figure out in the coming days and weeks.

Middle East & Africa

Qatar is currently in the process of building a new airbase. A senior Qatari Amiri Air Force official said that the new Tamim Airbase will host the country’s new Rafale, F-15s and Typhoons. Since 2014 the country’s airforce underwent a major modernization and overhaul process including the introduction of modern technology, upgraded airfields, the first class of female fighter pilots and the acquisition of new jets. Qatar has purchased a total of 35 F-15QAs at a cost of $12 billion, 24 Rafale jets for $7.8 billion and 24 Typhoons for $6.7 billion. In the coming years the Qatar Air Force will grow its fleet to a total of 96 aircraft, which is a significant leap from its current of 12 Mirage-2000s.

Europe

Defense News reports, that the US Air Force may soon deploy some of its MQ-9 Reapers to Romania’s 71st Air Base at Campia Turzii. According to a Air Force document the service is building a new $950 million hangar that will be able to house medium-altitude, long-endurance drones. The UAV in its ISR configuration will likely conduct support intelligence-gathering operations around eastern Europe and the Black Sea. The upcoming deployment of the Reapers will help the US to generate a real-time picture of Russian activities in the Black Sea. The UAVs will assist in monitoring what ships are moving in and out and can provide early warning of hostile activities.

The Czech Republic is set to boost its inventory with 62 Titus armored vehicles. The Titus is the result of a cooperation between Tatra Trucks and Nexter Systems. The Titus looks quite similar to other MRAP models with the engine at the front, the crew compartment in the middle and the troop’s area at the rear. The vehicle is highly adaptable and can be outfitted with any kind of RWS from 7.62mm to 20mm, and 40mm grenade launcher. Its 500hp engine powers it to a maximum speed of 64 mph and to ranges of up to 434 miles. According to a company press release, there is a number of versions of the vehicle available, ranging from a classic IFV through a mobile command post, armoured ambulance to communications, maintenance and evacuation vehicles. For police purposes, there are a number of modules, which can be used to quickly prepare a vehicle to fulfil specific roles, such as the SWAT module, the WCT module (Water Cannon Tank) or the riot control module. The deal has a total value of $303.1 million, with delivers expected for the years 2020-2025.

The UK Royal Marines are currently embarking their new Commando Merlin HC4 helicopters on HMS Queen Elizabeth as part of the carrier’s four-month ‘Westlant 18’ deployment. In the upcoming months the helicopters will be provide a SAR capability in support of F-35B trials. The UK is currently in the process of upgrading a total of 55 helicopters at cost of $3 billion. Of which, 25 AW101s are refurbished to the Merlin HC4 configuration, which includes cockpit modernizations and minor redesigns, plus standard naval changes like a folding rotor head, strengthened landing gear, deck lashing points, and a fast roping point for the Royal Marines.

Asia-Pacific

Russian daily newpaper Kommersant claims, that Algeria has voiced its intent to purchase 14 MiG-29M fighter jets. The new planes are set to replace the country’s Soviet-era MiG-29s. Over the last decade the Algerian Air Force was an avid costumer of Russian equipment. So far it bought 44 Su-30MKAs, 14 Mi-26T2s helicopters, 16 Yak-130 trainers and 42 Mi-28NE combat helicopters. The MiG-29 Fulcrum is a single-seat, highly maneuverable fighter aircraft designed to engage airborne targets such as aircraft, UAVs and cruise missiles and was designed as Soviet counterpart to US F-15s and F/A-18s. The upgraded M-version features a longer range, an in-flight refueling system, state-of-the-art equipment, redundant fly-by-ware system for improved safety and reliability, and higher weapon load. The potential deal has a value of $700-800 million.

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Watch: The Harrier – RAF’s Top Warplanes

Americas

Leidos is set to support the US Army’s Saturn Arch program. The company is being awarded with a $26.8 million contract modification that provides for a Quick Reaction Capability (QRC) Aircraft. Saturn Arch is the Army’s answer to an ever evolving threat posed by IED’s. It essentially is an effort to implement ISR capabilities to a special aircraft fitted with state of the art sensor technology to identify and assist in removing explosives from the battlefield. Aircraft used under Saturn Arch often include Bombardier Dash-8 planes that are outfitted with radar, imagers, and signal intelligence capabilities. Work will be at the company’s facility in Bridgewater, Virginia and is scheduled for completion in September 2019.

Raytheon is being contracted by the US Navy for work on the MQ-4C Triton UAS. The cost-reimbursable job order is valued at $9.3 million and allows for the production and fleet integration of the Triton multi-spectral targeting system (MTS). The MTS is a turreted EO/IR sensor used in maritime and overland ISR missions. According to a DoD notice, the sensor system will augment existing sensors that will enhance navigation as well as CSR, observation and interception missions. The system also provides long-range surveillance, target acquisition, tracking, range finding and laser designation for the Griffin and Paveway missiles and other forms of munitions. The Triton will have a minimum mission radius of 3,000 nautical miles, with a 10 hour time to on-station at 2,000 nmi mission radius, and autonomous flight through moderate icing or turbulence. Work will be performed at Raytheon’s facility in McKinney, Texas, and is expected to be completed by August 2020.

PeopleTec is being awarded with a $33.6 million contract for engineering and support efforts by the Missile Defense Agency. The contract has a two-year base value o $9 million and covers advisory and assistance services for international programs in the Ballistic Missile Defense System. These services also cover BMDS development, test, operations, infrastructure and acquisitions. Work will be carried out at multiple locations including the company’s location in Huntsville, Alabama and in Tel Aviv, Israel. Israel currently fields the Arrow-3 missile defense system that is a collaboration project between Boeing and IAI. The contract is set to run through September 2023.

Middle East & Africa

Israeli newspaper Haaretz reports that the country is moving ahead with the purchase of advanced ground-to-ground missiles that can reach ‘anywhere in the Middle-East’. The project was announced by Defense minister Avigdor Lieberman back in February and included an initial budget of $500 million to set up a new unit within the IDF’s ground forces. The new missile system will fill an operational gap that cannot be bridged by the US-made MLRS. The project could cost up to $2 billion, spread out over a decade, depending on the number of missiles the Israeli military will acquire. The focus on developing new ground-to-ground capabilities stems from an ever increasing threat to Israeli aircraft by advanced air-defense systems deployed in Syria and elsewhere.

It seems that Turkey will be banned from purchasing the F-35s for the foreseeable future. The latest bill was put forward by Maryland Senator Chris Van Hollen and prohibits the transfer of the fighter jets to Turkey as long as it cannot be guaranteed that the country will not be purchasing the S-400 air-defense system from Russia. As Jane’s notes, US defense officials are concerned that Turkey operating the S-400 in the vicinity of the F-35 would compromise the aircraft’s security, including its stealth capabilities, and represent a strategic threat to the United States. Turkey is a Tier 3 partner in the JSF program and initially planned to order about 100 F-35As as replacement for its 240-plane F-16 fleet. The overall program is expected to cost around $16 billion. Currently it is uncertain if the Van Hollen’s amendment will become law.

Europe

The Romanian government is moving ahead with its planned acquisition of anti-ship missiles that are to be deployed to the country’s Black Sea coast. Potential bidders include Boeing, MBDA, Kongsberg and Saab, which are offering the Harpoon, Exocet MM40, the NSM and RBS-15 Mk3 respectively. The sub-sonic, sea-skimming GM-84 Harpoon is the standard anti-shipping missile used by the US Navy, and its variants are in service with 27 navies around the world. The MM40 missile is an upgraded version of the MM38 that began development in 1976, it has an inertial navigation system, an active radar seeker, and is equipped with a high explosive fragmentation warhead. The stealth-enhanced NSM aims to be a germination beyond the Harpoon, an air-launched version is being developed for the F-35. RBS-15 fire-and-forget missiles have a longer reach and heavier punch than counterparts like the Harpoon. The contract has a value of $159 million and is scheduled to be financed in the years 2018-2023.

European NATO members are currently stockpiling air-to-ground precision guided munitions with the help of the US. The project is being run by the NATO Support and Procurement Agency (NSPA) and will reduce dependence on the US in the case of prolonged air-operations. The initial order of $20 million JDAM and Paveway kits are part of a larger US FMS worth about $231 million. During the 2011 intervention in Libya several countries ran out of munitions and found it difficult to use those of other air forces.

Asia-Pacific

The Australian Ministry of Defense is confirming that it will arm its Boxer combat reconnaissance vehicles with the Spike LR2. The country is procuring a total of 211 Rheinmetall Boxers under its Land 400 Phase 2 program. The Spike LR2 is produced by Israeli defense contractor Rafael and is the latest member of the multi-purpose missile family. The missile has the capability to destroy a number of different targets including MBTs with reactive armor and fortified structures. The LR2 is equipped with a passive and uncooled multi-band seeker that integrates both thermal and HD imagery and includes a smart target tracker with AI features, allowing the missile to track and target automatically.

Today’s Video

Watch: PAF JF-17 performs at Radom airshow

Americas

The US Navy needs more support services to keep the fleet’s single combat system running. Lockheed Martin will provide additional engineering and technical services for the Submarine Warfare Federated Tactical Systems (SWFTS) program. This cost-plus-incentive-fee modification has a value of $13.5 million. SWFTS is an engineering and management program that consists of all submarine combat system subsystems, consultation, command, control, communications, computers, and intelligence to aid in integrating all systems into a single combat system for naval battle group interconnectivity. SWFTS essentially is a common architecture for the Navy’s five different classes of submarines, transforming the submarines from stand-alone vessels to nodes in combat networks. Work will be performed at Lockheed’s facility in Manasses, Virginia, and is expected to be completed by December, 2018.

The US Army is contracting General Atomics for further engineering services in support of its Gray Eagle UAS. The modification to previously awarded contract has a value of $11 million. The MQ-1C Gray Eagle is based on the MQ-1 Predator, but it is bigger, can carry more payload and has an engine that runs on the same kind of fuel that is used to power US Army vehicles. Its expansive mission set includes, but is not limited, to wide-area Intelligence Surveillance and Reconnaissance (ISR), convoy protection, Improvised Explosive Device (IED) detection and defeat, close air support, communications relay, and weapons delivery missions. The Gray Eagle, equipped with signal jammers, will likely be one of the Army’s primary electronic warfare platform. Work will be performed at the company’s location in Poway, California and is scheduled for completion by end of September, 2019.

Progeny Systems is set to supply the Navy and a number of US foreign military sales customers with a number of Mk-54 Mod 1 lightweight torpedo kits. The contract has a value of $40.6 million, but includes options which, if exercised, would increase the total face value of the contract to $303.2 million. FMS customers include Canada, Australia, the UK and Taiwan. The Mod 1 kit is an upgrade that adds a new sonar array assembly, and improved processing capability. The torpedo has a price-tag of $1 million per piece and is designed to work in both deep water and near-shore or shallow environments. Work will bet performed at multiple locations, including Charleroi, Pennsylvania; Salt Lake City, Utah and Manassas, Virginia.

Middle East & Africa

Jane’s reports, that Saudi Arabia is deploying one of its Patriot batteries to protect pilgrims in Mecca. Satellite imagery collected by DigitalGlobe shows that the missile launchers were aimed towards the Yemeni border, some 354 miles away. Houthi rebels have regularly launched ballistic missiles towards the kingdom, and targeted Mecca directly on October 9th, 2016. PAC-3 is the current standard, its enhanced capabilities allow it to be used for point defense against ballistic missiles. Saudia Arabia is believed to have ordered a total of 802 PAC-3 missiles at a cost of $7.15 billion since 2014.

Europe

The government of Bulgaria is inviting Russian and Belorussian companies to submit offers for a multi-million deal. The country urgently needs to overhaul its fleet of Russian-made Su-25s, a process that already is 10-years overdue. The Su-25 is a single-seat, close-support aircraft, known by the Nato reporting name Frogfoot. The plane is equipped with a 30mm twin-barrel gun, its wings have ten pylons for carrying a range of air-to-air and air-to-ground weapon systems selected for the mission. Bulgaria currently operates a total of 35 Su-25s, which entered service 1988. The planes were grounded in December 2017 because the Ministry of Defense did not have the resources to conduct necessary maintenance work. The modernization efforts will likely cost $24.2 million.

The Ukrainian military is currently testing a new domestically developed 80mm unguided missile. Tests are held at Chernihiv firing-range, to date a total of 300 RS-80 Oskol missiles were fired from a Mi-8 helicopter. The country is in the midst of a low-intensity conflict with pro-Russian separatists in its eastern Donbass region.

The Austrian Ministry of Defense plans to procure a number of new helicopters for the Air Force. The new aircraft are needed to replace Austria’s fleet of Alouette-IIIs, which are already over 50-years old. The Ministry is looking into a variety of platforms suitable to fill the role of the Alouette. Possible successors could be Leonardo’s AW-109, Bell’s 429 or Airbus’ H-145M. In addition, the Army plans to buy three overhauled Blackhawks. To guarantee the necessary funding, Austria’s quite limited military budget of $2,6 billion will be boosted with a $463 million special investment program.

Asia-Pacific

The Russian military will soon receive an upgraded variant of of the Mi-28NE Night Hunter combat helicopter. The Mi-28NE is designed to carry out search and destroy operations against tanks, armored and un-armored vehicles, and enemy personnel in combat, as well as low-speed airborne targets. Upgrades include an new external radar and the capability to fire new anti-tank guided missiles. The new ATGM is the latest variant of the 9M123M Khrisantema-VM, known by Nato as AT-15 Springer.

Today’s Video

Watch: Close up of an A-10 Warthog

Americas

The US Army is modernizing one of its training systems. Lockheed Martin will provide the service with an upgraded Close Combat Tactical Trainer Manned Module (CCTT) under a $356.3 million hybrid contract. The CCTT is a computer-driven, manned-module simulator that replicates the vehicle interiors of close-combat units. integrates all facets of combat vehicle operations to immerse Warfighters in the scenarios they will face on the battlefield. Through the CCTT, units train and are validated in tactics, doctrine, weapons systems, mission planning and rehearsals. Crewed simulators, such as the Abrams MBT, the Bradley and the Humvee, offer sufficient fidelity for collective mission training. Work locations and relevant funding will be determined with each individual order. The modernization efforts are scheduled for completion by August, 2028.

The US Air Force is procuring an unspecified number of aerial target from Kratos. The contractor will provide the service with Lot 14-16 BQM-167A high performance, jet powered unmanned aerial target drone systems at a cost of $108.9 million. The Air Force uses the BQM-167A to test and evaluate air-to-air and surface-to-air weapons systems. The system is capable of speeds from 230 to 600 knots. The drone can achieve flight altitudes from 50 feet above ground level to 50,000 feet mean sea level. Maneuvers include G-turns up to 9G’s, and other aerial acrobatic turns. The UAV can carry a full range of current Air Force subscale target payloads which include a scoring system, infrared and radar enhancements, electronic attack pods and a chaff/flare dispenser set. Work will be performed at Kratos’ facility in Sacramento, California, and is expected to be completed by the end of 2022.

The US Marine Corps is adding more unmanned aircraft systems to its inventory. Insitu is being contracted to provide the service with four Lot 2 RQ-21A Blackjack drone systems. The firm-fixed-price contract also includes the delivery of eight attrition air vehicles, of which seven are reserved for the USMC and one for Poland, which will receive the vehicle as part of a US foreign military sale. The order has a total value of $53.9 million. The Blackjack belongs to the family of Small Tactical Unmanned Aircraft Systems (STUAS). The drone can be deployed in persistent maritime and land-based tactical intelligence, surveillance and reconnaissance, data collection, target acquisition and dissemination missions. One UAS consists of five air vehicles with multi-mission payloads, two ground control stations and ancillary equipment. Work will be performed at Insitu’s facilities in Bingen, Washington and Hood River, Oregon. The systems are expected to be ready for delivery by June 2019.

Middle East & Africa

Iran is showing off its ‘new’ fighter jet as the diplomatic relations with the US further deteriorate. The Iranian Ministry of Defense claims that Kowsar-88 is the first domestically produced 4th generation fighter jet. However, experts quickly noted that the unveiled jet looks quite similar to the 50s era US-made F-5F. The F-5 was sold to Iran in the 1960s and first entered service in the Iranian Imperial Air Force in 1965. During the jet’s presentation President Hassan Rouhani reasserted Iran’s political standpoint that it will not yield to diplomatic or economic pressure. He clearly stated that the country is readying itself to counter any foreign military powers that seek to take over Iran’s territory and resources, while adding that under President Donald Trump the United States was becoming isolated even from its own allies. Iran is currently in the process of building up its influence in the region. It has a significant amount of troops stationed in Syrian and is sponsoring Houthi rebels in Yemen. To date the claim that the Kowsar-88 is indeed a new fighter jet seems to be just a product for domestic propaganda rather than genuine information.

Europe

The Swedish Air Force needs a new fighter jet after one of its JAS 39 Gripen crashed yesterday, August 21. Shortly after take-off the aircraft collided with a bird and subsequently crashed in a forested area about five miles north of a military air base near the southern Swedish city of Ronneby. The Gripen multirole fighter aircraft, developed by Saab, was first flown in December 1988 and entered operational service with the Swedish Air Force in 1997. The JAS-39, is a canard-winged successor to the Viggen and one of the world’s first 4+ generation fighters. The Gripen remains the only lightweight 4+ generation fighter type in service, its performance and operational economics are both world-class, and it has become one of the most recognized fighter aircraft on the planet.

Russia’s influence in the Balkans is growing, as the Serbian Air Force is now flying two Russian MiG-29 fighter jets. During the handover ceremony Serbian President Aleksandar Vucic thanked Russian President Vladimir Putin for helping make Serbia’s armed forces stronger. Produced between 1989 and 1991, the warplanes are somewhat newer than Serbia’s four existing MiGs, which were delivered in 1987. Serbia claims military neutrality and formally wants to join the European Union. But it is also negotiating additional arms purchases from Russia, including attack and transport helicopters, Buk-M1 and Buk-M2 air-defense missile systems, and Tunguska antiaircraft systems. The small country received the second-hand fighter jets free of charge but will be responsible to pay about $213 million for upgrades and maintenance work on a total of six MiG-29s. Serbia faces a mini arms race with NATO-member Croatia, which has recently agreed to purchase 12 used F-16 fighter aircraft from Israel.

The Royal Navy is introducing a new mine countermeasures sonar to its service. Produced by Thales, the enhanced 2093 Wideband variant has been developed under the Royal Navy’s 2093 Capability Sustainment Programme (CSP). The system is currently installed on the Navy’s Sandown-class minehunter HMS Grimsby and was extensively tested off the coast of Scotland. Thales will also refit the Grimsby’s six sister ships as part of multi-million pound contract. Sandown-class minehunters are built almost entirely of non-magnetic materials and are designed to resist high shock levels. Their manoeuvrability is controlled, either manually or automatically, by using the Ship Position Control System (SPCS) developed by Vosper Thornycroft. The 2093 sonar transmitter and receiver are contained within a towed body which is lowered below the ship by automated winch of armoured cable, penetrating oceanic temperature layers which can block sonar signals. The system greatly improves the minehunters ‘coverage rate’ and ‘speed of advance’.

Asia-Pacific

The Japanese government is currently negotiating a potential development cooperation with Germany and France. Japan plans to sell its P-1 maritime patrol aircraft to the two European countries. The Japanese Ministry of Defense began the development of P-1 along with the C-X transport aircraft in 2001 to replace the ageing P-3C fleet. The aircraft built by Kawasaki Heavy Industries and is equipped with new acoustics and phased array radar systems with enhanced capabilities for detecting and tracking submarines and small vessels. Germany is currently in possession of P-3Cs, while France relies on Dassault’s Atalantic. The two countries will soon need to replace their ageing aircraft and are looking for offers that reduce procurement costs as much as possible, while Japan at the same time is heavily promoting the export of military equipment as means to revitalise its domestic defense industry. Germany and France will use the new patrol aircraft to monitor increased Russian submarine activity.

Today’s Video

Watch: Marine Corps infantry training

Americas

One of the Navy’s Ticonderoga-class guided missile cruises is getting an overhaul. BAE Systems Norfolk Ship Repair is being contracted to modernize the USS Gettysburg (CG 64) at a cost of $146.3 million. The company is responsible to provide the Navy with ‘long-term’ availability that combines maintenance, modernisation and repair work on the vessel. The Ticonderoga Class remains critical to American seapower, functioning as the fleet’s most powerful anti-air defense, and contributing substantial anti-ship and anti-submarine combat power to its assigned naval groups. The Cruiser Modernization program aims to improve the CG 47 Ticonderoga class by modernizing the computing and display infrastructure and the Hull, Mechanical and Electrical (HM&E) systems. Weapons and sensor sets will also be improved, in order to upgrade their anti-submarine capabilities, add short range electro-optical systems that can monitor the ship’s surroundings without the use of radar emissions, as well as routine machinery upgrades to improve all areas of ship functionality. The modernized cruisers are expected to become more cost efficient to operate, as their lives are extended to serve in the fleet through the year 2030. Work will be performed at BAE’s shipyard in Norfolk, Virginia and is expected to be completed by March 2020.

General Atomics Electromagnetic Systems is set to develop a new sensor for the Missile Defense Agency’s MQ-9 UAVs. The cost-plus-award fee contract has a total value of $133.9 million and provides for finalising the development, integration and flight testing of an advanced sensor. The sensor will be evaluated in realistic test scenarios, to be held at various locations inside and outside the continental US. 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. The new sensor technology has been in the works for some time. It is designed to significantly improve the ability to track cold body targets through their time of flight and enhance discrimination. The MDA is also planning to equip the MQ-9 with high-energy laser systems that could destroy intercontinental ballistic missiles in the boost phase at long standoff ranges. The sensor will be manufactured at GA’s facility in San Diego California from August 2018 through October 2021.

Camber Corp is being tapped to support the USMC’s CBRN contingency efforts. The awarded $15.2 million cost-plus-fixed-fee modification allows the company to perform a variety of technical and engineering services in support of the Chemical, Biological, Radiological, Nuclear and High-Yield Explosive Consequence Management Program. CCMRF is a robust federal entry force that is scalable and task-organized to mitigate further loss of life and relieve suffering in response to a CBRNE disaster. It supports local and state requests for assistance as part of a federal response. The USMC’s Chemical Biological Incident Response Force is capable of deploying as a battalion task force consisting of two subordinate initial response forces (IRFs) with approximately 150 personnel each. In the event of a CBRNE attack, the battalion will deploy Marines who specialize in identification and detection, and they will gather the first wave of intelligence that will be used to define the manner in which the mission will be accomplished. Work will be performed in Washington DC until August 22nd, 2019.

Middle East & Africa

The Qatari Air Force is ordering 28 NH-90 helicopters from Italian defense contractor Leonardo. The deal has a value of $3.4 billion and includes 12 NFH naval helicopters, 16 TTH troop transports, and a number of training services. The NH-90 began life as a leap-ahead competitor that would create a compelling alternative to Sikorsky’s 1980-era H-60 family airframe designs. The NH-90 TTH is the base variant for land and air forces. The platform can carry 12-20 troops and can be configured to perform SOF, MEDEVAC and CSAR missions. The NH-90 NFH an be used as a utility helicopter like the TTH, or as an anti-submarine helicopter. In its ASW configuration the helicopter is equipped with a naval radar, a dipping sonar, sonobuoys, a magnetic anomaly detector, and up to 2 light anti-ship missiles or torpedoes on side pylons. The naval variant will be manufactured at Leonardo’s facility in Venice, while the troop transporters will be assembled at a non-disclosed Airbus location. The helicopters are scheduled for delivery between 2022 and 2025.

Europe

Norway is currently testing its newly acquired F-35 JSFs. Two of Norway’s F-35s recently competed against two US F-22 stealth fighters in a number of simulated dogfights. The F-22s are among 13 jets currently deployed in Europe. Norway is a Tier 3 partner in the JSF program, has ordered a total 52 aircraft and is developing a stealthy Joint Strike Missile with the F-35 as its explicit target. The JSM/NSM is produced by Kongsberg, it can strike land or sea targets and and can be carried inside the F-35A/C weapons bay. The Raptor is considered to be the first 5th generation fighter, even though the aircraft is out of production, the program itself will continue to attract spending on maintenance, spares, and upgrades. The F-22’s deployment is part of US efforts to reassure European allies after Russia’s 2014 annexation of Crimea.

Asia-Pacific

South Korea’s Navy is funding a research project to explore the possibility of operating F-35Bs aboard its amphibious landing ships. The project aims to devise a feasible and affordable options to remodel the country’s 14,000-ton Dokdo-class vessel. Necessary work is likely to include retrofitting the ship with a ski-jump ramp, similarly to the one seen on the Queen Elizabeth-class carriers, and adapting the flight deck so that used materials can withstand the high-temperatures caused by fighter jet operations. In 2014, South Korea decided to acquire 40 F-35As at a cost of $6.4 billion, some experts speculate that the country will also opt for a few F-35Bs as means to mitigate the dangers of a future shortage of warplanes caused by decommissioning its ageing fleet of F-4s and F-5s.

The Singapore Air Force is adding a new multi-role transport aircraft to its fleet. Recent social media posts indicate that the aircraft recently landed at Changi West Air Base. The Airbus A330 Multi-Role Tanker Transport (MRTT) was designed from the outset to be able to function as an aerial tanker and a transport aircraft at the same time. The A330 MRTT has a maximum fuel capacity of 246.000 lbs. and has the capacity to carry 43,000 kg of cargo, including up to 32 463L cargo pallets, or up to 272 passengers, while carrying a full fuel load. The aircraft is powered by two Rolls-Royce Trent 772B-60EP engines, has a hose-and-drogue refuelling pod on both wings and a refuelling boom. Singapore has five additional A330 MRTT’s on order.

Today’s Video

Watch: Russia’s 6th Gen. fighter jet

Americas

The upcoming FY2019 will be good year for US aerospace companies. The recently signed National Defense Authorization Act allows for the procurement of 413 aircraft at a cost of $39.5 billion. The US Navy is set to order a total of 119 warplanes. This includes 24 Super Hornets, 10 P-8 maritime surveillance aircraft, eight CH-53K helicopters. In addition, the Naval Air Systems Command is being entrusted with a multi-year contract authority for the F/A-18 Super Hornet, EA-18G Growler and E-2D Advanced Hawkeye aircraft which gives it the right to negotiate bulk discounts with vendors based on a guarantee of several years of orders. The Air Force will buy 15 KC-46 tanker aircraft with a grant of $2.4 billion. The service will also be able to spend a further $300 million to procure aircraft for its Light Attack and Armed Reconnaissance (OA-X) program. Lockheed Martin will provide the Air Force, USMC and Navy with a total of 77 F-35 fighter jets. This $7.6 billion order is the largest appropriation for a single aircraft type. The company will deliver 48 F-35As, 20 F-35Bs and 9 F-35Cs. The total US defense funding rose by 2.4% to a total of $717 billion.

The US Army is investing in IED detection systems. Chemring Sensors and Electronic Systems will provide the service with a number of Husky Mounted Detection System systems. This firm-fixed-price contract has a value of $92.5 million. The Husky was initially developed in the 1970s by South Africa-based RSD, a division of Dorbyl and marketed by Critical Solutions International (CSI). The vehicle is equipped with a ground-penetrating radar (GPR) that detects mines and explosives by using hydraulically-controlled deploy and retract modes. The vehicle is fitted with automatic target recognition algorithms for GPR and metal detection data processing. The Husky’s crew is protected by a V-shaped hull and bulletproof glass. The employment strategy for the VMMD system involves a lead mine-detection vehicle searching for antitank mines. Upon detection, the prime mover would move forward towing the detonation trailers. A squad of engineers could then neutralize the mine or the trailers could detonate the mines in place. Locations of performance and funding will be determined with each order. Work is scheduled for completion by August 15th, 2022.

The Navy is contracting TOTE Services to support SBX-1. The company is being awarded with a firm-fixed-price contract valued at $11.1 million. The company will be responsible for operating and maintaining the Sea-Based X-Band Radar vessel. The X-band radar, also known as the SBX, was originally planned as a land-based system but a sea-based system became possible when the Bush administration withdrew from the 1972 Anti-Ballistic Missile Treaty. It constitutes a mid-course fire control radar based on a seagoing semi-submersible vessel. The $815 million, mechanically-slewed, X-band phased array assembly is 280 feet tall, and weighs 2,400 tons. The radome alone weighs 18,000 pounds, stands over 103 feet high, and is 120 feet in diameter. Made entirely of a high-tech synthetic fabric, the radome is supported by air pressure alone, and is designed to withstand 130+ mph winds and a “100-year storm” at sea. The radar performs cued search, precision tracking, object discrimination and missile kill assessment. The in-flight interceptor communication system data terminal transfers commands from the GMD fire control system to the interceptor missile during its engagement with the target missile. This contract is scheduled for completion by September 2019, but does include several options which could extend the contract until end of March, 2024. The total cumulative value of this contract would rise to $65.3 million, if all options are exercised.

General Dynamics Bath Iron Works is being tapped to replace the centralized 400-Hz power distribution system of three Arleigh Burke-class destroyers. The contract modification has a value of $9.5 million and provides for material and labor needed to add new integrated power node centers on the USS John Basilone (DDG 122), the USS Harvey C. Barnum Jr. (DDG 124) and on the USS Gallagher (DDG 127). The current centralized 400-Hz power-distribution system, consists of two air-cooled solid state frequency converters. The new integrated power node center combines power transfer, frequency conversion, voltage transformation, power conditioning, and fault protection into one cabinet. Electrical power is at the heart of any modern warship. On destroyers for example they allow the Mk41 VLS to perform its job. For each launcher there are 400-Hz and 60-Hz power distribution units to supply power to the launcher electronics. Work will be performed at the company’s shipyard in Bath, Maine, and is expected to be completed by November 2022.

Middle East & Africa

Reports suggest that the United Arab Emirates is currently deploying one of its Wing Loong II UAVs from its Assab airbase in Eritrea. In October 2017 satellite imagery confirmed the UAE as the first export customer of China’s next-generation medium-altitude long-endurance and strike-capable UAE. The Diplomat states that the Wing Loong II has been primarily designed and developed for export and has been marketed by China’s defense industry as a more cost-effective alternative to the US-made General Atomics MQ-1 Predator. The Wing Loong UAV’s fixed mid-mounted wings with high aspect ratio provide improved performance by reducing the drag. Its fuselage structure is designed to minimise the radar cross-section. It features two vertical tail fins, arranged in a V shape. The tricycle landing gear, with two main wheels under the fuselage and one single wheel under the nose, facilitates safe take-off and landing. The unmanned combat aerial vehicle can be armed with a variety of weapons including laser-guided bombs and missiles to attack and destroy air or ground-based targets. The UAE is currently fighting Al-Qaeda in Yemen.

Europe

Germany is issuing a long-awaited final request for its multi-national TLVS (Taktisches Luftverteidigungssystem) program. MBDA and Lockheed Martin will now negotiate the cost and technical parameters of the program with the Bundeswehr. If the German Bundestag, the country’s parliament, approves the necessary procurement funding, the Bundeswehr would receive its first-ever fielded air-defense system with a built-in 360-degree capability. The Medium Extended Air Defense System (MEADS) program aimed to replace Patriot missiles in the United States, the older Hawk system in Germany, and Italy’s even older Nike Hercules missiles. MEADS will be designed to kill enemy aircraft, cruise missiles and UAVs within its reach, while providing next-generation point defense capabilities against ballistic missiles. MEADS is the product of a $4 billion development program shared by the US, Germany and Italy that incorporates Lockheed Martin’s hit-to-kill PAC-3 Missile Segment Enhancement (MSE) missile in a system including 360-degree surveillance and fire control sensors, netted-distributed tactical operations centers, and lightweight launchers. So far, only Germany has chosen to field the system.

Asia-Pacific

Taiwan’s F-16 pilots are set to receive training support as part of a US foreign military sale. L3 Technologies is being awarded with a $25.8 million contract modification for an additional training system to be installed in an F-16 A/B Block 20 Mission Training Center. The Republic of China Air Force operates a total of 150 F-16A/B block 20 aircraft. Twenty F-16A/B Block 20 aircraft are based in the US for testing and training purposes. MTC’s immerse pilots in high-definition, dynamic training scenarios that enables them to practice air-to-air and air-to-ground missions under any condition that might be encountered during actual flight. Each F-16 MTC consists of four simulators that incorporate high-definition displays, image generation, databases and dynamic environments. Work will be performed in Arlington. Texas and is scheduled for completion by end of October, 2024.

The Chinese People’s Liberation Army Navy (PLAN) is adding 12 L-15 advanced jet trainers to its training school. The PLAN Aviation University was formed in 2017 and is based in Shandong. The Hongdu L-15 Falcon made its maiden flight in 2006 and is intended to train pilots to fly high-performance forth-generation aircraft, such as the J-10 and Su-27. It is also suitable to complete all basic jet flight training courses. The Hongdu L-15 features a full glass cockpit which can accommodate two crew members, either a student pilot and instructor, or an official pilot and weapons systems officer. The jet has six hard points of which four are located under the two wings and two under the wing-tips. It can accommodate 6,000lb of payload. The aircraft can carry short range air-to-air missiles, air-to-ground missiles, bombs and rocket pods. The development comes amid Beijing’s general airpower build-up, specifically as it develops air wings for its growing fleet of aircraft carriers.

Today’s Video

Watch: Jane’s reports of Merlin helicopter carrier deployment

SBX-1, Pearl Harbor
(click to view full)

As rogue state proliferation by the likes of North Korea made missile defense a growing priority for nations including the USA, Japan, and Israel, the USA began to look at the linchpin of any defense: powerful radars that could both track ballistic missiles, and guide interceptors. The USA has its BMEWS tracking system, but that would not serve. America’s Safeguard ABM system was dismantled long ago – though Russia still maintains its counterpart System A-135 network around Moscow. Something new would be needed.

Enter Raytheon’s new XBR radar, based on an SBX-1 platform that looks a lot like a mobile oil drilling rig. Basing the radar at sea offers numerous advantages. One is the obvious ability to move the radar as threats materialize, allowing much greater coverage with fewer radars. Another is the ability to protect allies, without having to invest in expensive systems whose regional capabilities and value to the USA could be put at risk by the decisions of a single foreign government. In exchange for this freedom from political interference, of course, the designers must contend with nature’s interference in the stormy Pacific.

Boeing SBX system is linked to its land-based GMD (Ground-based Mid-course Defense) missile system but can also operate with other naval and land elements.

The XBR Radar and SBX Platform

SBX concept
(click to view full)

Initially, the SDX will provide the Ground-based Midcourse Defense (GMD) element of the Ballistic Missile Defense System with an advanced training and decoy discrimination capability that will help interceptor missiles located in Alaska and California provide a defense against a limited long-range missile attack.

Information from SBX would go to the missile system nerve center in Colorado Springs, Colorado, which could then deploy defensive missiles from sites in Alaska and California. The radar’s position in the northern Pacific would allow it to keep an eye on North Korea, which is viewed as the greatest missile threat to the United States at present. It had been homeported midway along the Aleutian Islands chain in Adak, Alaska, but SBX-1 is capable of moving throughout the Pacific Ocean to support both missile defense advanced testing and defensive operations.

Tests of GMD intercept missiles thus far have been hit-or-miss, with close to half of the interceptors either not getting off the ground or missing the target. Naval launches of Raytheon’s SM-3 missile have had far more success, however, and the SBX has been used in a number of these launches as a collaborating element. Meanwhile, system development of the land-based GMD system continues.

After the radar was removed from operational status in 2012 as a money-saving move, it was located in Hawaii. By April 2013, however, North Korean threats pushed the US Navy to activate SBX and sail it into the Pacific once more.

Boeing Co. is GMD’s prime contractor, including the GMD missiles and overall integration of SBX. Raytheon is the primary subcontractor, with responsibility for the XBR radar. Alpha Marine Services’ M/V Dove is chartered as the platform’s supply vessel, and Interocean American Shipping Corp. holds the crewing charter for the underlying SBX-1 vessel.

The XBR Radar

Catching foreign speeders
(click to view full)

Raytheon’s giant XBR radar is a distant relative of the X-band radars used by police to detect speeding drivers, but designed to detect and illuminate incoming missiles instead. It floats on a system resembling an oil drilling platform, and will usually provide long-range mid-course guidance for ballistic missile defense systems. It can also provide earlier guidance if positioned correctly. The Sea-Based X-Band radar (SBX) that uses it was originally planned as a land-based system, but a sea-based system became possible when the George W. Bush administration withdrew from the 1972 Anti-Ballistic Missile Treaty.

The XBR radar has been fitted to a huge mobile oil platform built by a Russian firm. It would normally steam out to offshore waters and be used as a base to drill oil and gas wells. Instead, SBX will steam at a top speed of about 7 mph and add a mobile element to the USA’s missile defense network.

The $815 million, mechanically-slewed, X-band phased array assembly is 280 feet (85 meters) tall, and weighs 2,400 tons. The radome alone weighs 18,000 pounds, stands over 103 feet high, and is 120 feet in diameter. Made entirely of a high-tech synthetic fabric, the radome is supported by air pressure alone, and is designed to withstand 130+ mph winds and a “100-year storm” at sea. This makes it far more durable than any air-supported radome of remotely comparable size, and its design and fabrication required development of several new processes, materials, and technologies.

New technologies have been developed within the radar as well. XBR leverages lessons learned on earlier radar programs, including the Ground-Based Radar – Prototype (GBR-P), located at Kwajalein in the Republic of the Marshall Islands, and the land-based AN/TPY-2 Terminal High Altitude Area Defense (THAAD) radar. Raytheon continued to work on design and manufacturing enhancements, including 3 iterations of cost and reliability improvements to Raytheon’s Gallium Arsenide Transmit/Receive (GaN T/R) module, which lies at the heart of its X-Band radar family. That’s good, because XBR uses over 45,000 T/R modules, and has a Physical Aperture of 384 m2 and Active Aperture of 248 m2.

XBR provides 2-90 degree elevation coverage (not exactly vertical, can be tipped upward), and about 270 degrees of azimuth coverage (beam width profile). It scan a horizon of about 2,500 miles (4,000 km) at a sensitivity so great that it could detect the movement of a baseball at the opposite end of the United States. X-band radars also have much tighter discrimination than UHF radars like Alaska’s Cobra Dane, which means they’re faster and better at telling separating incoming warheads apart from debris and decoys.

Contracts & Events

Unless otherwise noted, the US Missile Defense Agency (US MDA) in Huntsville, AL manages these contracts.

FY 2012 – 2018

Budget cuts force SBX out of operation; North Korea forces it back into operation; Crewing charter.

SBX departs
(click to view full)

August 17/18: Sea-based BMD The Navy is contracting TOTE Services to support SBX-1. The company is being awarded with a firm-fixed-price contract valued at $11.1 million. The company will be responsible for operating and maintaining the Sea-Based X-Band Radar vessel. The X-band radar, also known as the SBX, was originally planned as a land-based system but a sea-based system became possible when the Bush administration withdrew from the 1972 Anti-Ballistic Missile Treaty. It constitutes a mid-course fire control radar based on a seagoing semi-submersible vessel. The $815 million, mechanically-slewed, X-band phased array assembly is 280 feet tall, and weighs 2,400 tons. The radome alone weighs 18,000 pounds, stands over 103 feet high, and is 120 feet in diameter. Made entirely of a high-tech synthetic fabric, the radome is supported by air pressure alone, and is designed to withstand 130+ mph winds and a “100-year storm” at sea. The radar performs cued search, precision tracking, object discrimination and missile kill assessment. The in-flight interceptor communication system data terminal transfers commands from the GMD fire control system to the interceptor missile during its engagement with the target missile. This contract is scheduled for completion by September 2019, but does include several options which could extend the contract until end of March, 2024. The total cumulative value of this contract would rise to $65.3 million, if all options are exercised.

April 26/13: What’s My Role? The GAO looks at the Missile Defense Agency’s full array of programs in report #GAO-13-342, “Missile Defense: Opportunity To Refocus On Strengthening Acquisition Management.” With respect to SBX, it has this to say:

“MDA faces continuing portfolio challenges…. For example, after approximately $2 billion had been spent in several years of development, the SBX sea-based radar was downgraded from operational status to a limited test status because of funding limitations…. Limited test support status means SBX will support BMDS flight and ground tests as appropriate, but can be recalled to active, operational status when warnings indicate a need…. By transitioning SBX to a limited test support status, MDA officials expect to save almost $670 million in operation and maintenance costs for fiscal years 2013 through 2018.

Because SBX is primarily used to support GMD’s defense of the United States, removing SBX from operational status also changes how the BMDS operates…. [Northern] command has developed alternatives for conducting engagements without the SBX. However… there is a difference in how the BMDS operates without SBX, the details of which are classified.”

Those plans must include the huge Cobra Dane PAVE PAWS radar in Alaska – but its sustainment funds only exist to 2015, its UHF frequency isn’t good for target discrimination, and it will need another upgrade soon. Replacing Cobra Dane would cost an estimated $1 billion, though the NRC’s suggestion of a “GBX” stacked TPY-2 radar could bring that cost down considerably.

April 1/13: Off the bench. The USA deploys SBX, sailing it from Pearl Harbor and toward North Korea in the wake of serous threats made against the USA as well as South Korea. Obviously, the Navy isn’t talking about exactly where it’s headed, but there are many safe places in the Pacific that offer a better vantage point for North Korea’s expected “test” launches. Chosun Ilbo | Hankyoreh | Hawaii News Now | KITV Hawaii | conservative Heritage Foundation.

Dec 13/11: Support. Boeing in Huntsville, AL receives a $15.1 million sole-source cost-plus-fixed-fee contract modification, exercising an option for continued SBX operation and sustainment services from Jan 1/12 through June 30/12.

Work will be performed in Huntsville, AL. FY 2012 research, development, test, and evaluation funds will be used (HQ0147-09-C-0007).

Nov 3/11: Crewing. Interocean American Shipping Corp. in Moorestown, NJ receives a $28.2 million firm-fixed-price contract to crew and maintain the Sea-Based X-Band Radar platform, SBX-1. Contract funds will expire at the end of the current fiscal year, on Sept 30/12, but 4 more 1-year option periods could turn it into a 5-year, $165.2 million deal.

This contract was competitively procured via solicitations posted to Military Sealift Command, Navy Electronic Commerce Online, and FBO.gov websites, with 5 offers received out of 100 firms with access. US Military Sealift Command in Washington, DC manages the contract (N00033-12-C-2500).

Crewing charter

Nov 1/11: Support. The US Missile Defense Agency (MDA) awards Raytheon IDS of Woburn, MA a maximum $307.6 million indefinite-delivery/ indefinite-quantity (IDIQ) contract. Under this new contract, Raytheon will maintain software required to operate “the X-band family of radars,” and perform and Ballistic Missile Defense System test planning, execution and analysis.

Discussions with Raytheon personnel confirmed that the funding applies to SBX’s XBR radar, as well as Raytheon’s AN/TPY-2 radars (THAAD, European missile defense, deployed in Israel & Japan), and a “Ground Based Radar Prototype” that they’re working on as a technology demonstrator.

Work will be performed in Woburn, MA from Nov 1/11 through Oct 31/13, and the MDA’s FY 2012 research, development, test and evaluation funds will be used to fund initial orders. The MDA at Redstone Arsenal, AL manages the contract (HQ0147-12-D-0005).

Oct 19/11: To Hawaii. The US MDA announces that SBX is about the head into Pearl Habror, HI for scheduled maintenance and crew training operations.

FY 2010 – 2011

Test failure: try to turn it all on next time; Supply vessel chartered.

Renewed Vigor
(click to view full)

Sept 19/11: Support vessel. Edison Chouest subsidiary Alpha Marine Services, LLC in Galliano, LA wins a $25.3 million firm-fixed-price contract for the time charter of M/V Dove, a US-flagged, anchor-handling, towing supply vessel that will be used to support SBX-1. M/V Dove will transfer fuel, supplies, and offshore workers to and from SBX-1, and will function as the platform’s oil spill response vessel. Alpha Marine Services will operate and maintain M/V Dove for the duration of the charter. This contract includes 4 more 1-year option periods, which could bring the total contract to $147 million.

Work will be provided in the Pacific Ocean, and is expected to be complete by September 2012. Contract funds are subject to availability in FY 2012, and will expire on either Sept 30/12 or Sept 30/13; subsequent options could extend that. This contract was competitively procured via a solicitation posted to the Military Sealift Command, Navy Electronic Commerce Online, and FBO.gov websites with 4 offers received. US Military Sealift Command in Washington, DC manages the contract (N00033-11-C-2006).

Support vessel charter

Aug 20/11: Maintenance. SBX leaves from Vigor Shipyards (formerly Todd Shipyards) in Seattle, WA, where the sea platform has been undergoing scheduled maintenance and planned upgrades over the past 3 months. A Naval Vessel Protection Zone will be applied to SBX as it departs, and will be monitored by the US Coast Guard. US MDA.

April 19/11: Maintenance. A sole-source, not-to-exceed $27.2 million cost-plus-fixed-fee (CPFF) contract modification. The firm will provide support for SBX’s shipyard maintenance at Todd Pacific Shipyard in Seattle, WA, from March 2011 through September 2011.

$10.4 million in FY 2011 Research, Development, Test and Evaluation funds will be used to incrementally fund this effort (HQ0147-09-C-0007, P00028).

Oct 7/10: Maintenance. The Missile Defense Agency is planning to have SBX undergo modifications and maintenance at the Todd Shipyard in Seattle, WA. Work is expected to start in March 2011, cost about $9.4 million, and take about 90 days.

Work on the vessel’s thrusters and other modifications must begin in March, 2011, in order to maintain its Certificate of Inspection issued by the American Bureau of Shipping. Maintaining SBX requires a port with water depth of at least 50 feet, and there are only 3 facilities on the US West Coast with deep enough facilities: Todd, Naval Station Everett, WA; and Naval Air Station North Island, CA. US MDA.

Sept 30/10: Development. Boeing in Huntsville, AL, receives a $27.9 million sole-source cost-plus-award-fee modification to continue Sea-based X-band Radar development, test and evaluation efforts.

Work will be performed in Huntsville, AL from October 2010 through July 2011. This procurement will be funded with both FY 2010 and FY 2011 Missile Defense Agency research, development, test and evaluation funds (HQ0147-09-C-0008).

April 6/10: Why? Aviation Week is able to add some details regarding the January 2010 test failure:

“The first problem, known in the rocket sector as “chuffing,” occurred as the target boosted from the Kwajalein Atoll… refers to the sound that the motor makes, but it is also used to describe changes in the burn rate or pressure of burning in the solid-rocket fuel… [it’s] common in rocket motors, particularly older boosters. LV-2 used Trident C4 boosters, some of which are 25-35 years in age.

…While the chuffing did not affect target performance, a problem arose when… Algorithms designed to help SBX “filter out” chuffing were not engaged during the test [which became] more complex than it should have been. In a real engagement, this official says, the algorithms would be engaged… The second problem contributing to the test failure involved the functioning of the Exoatmospheric Kill Vehicle (EKV) itself, according to the officials. The EKV apparently experienced a mechanical failure in a thruster. This was described by one of the officials as a quality control issue brought on by a faulty connector.”

Jan 31/10: Testing. The USA MDA announces that, following a number of successful missile interception tests involving SBX in a supporting role, the latest test experienced a glitch:

“A target missile was successfully launched at approximately 3:40 p.m. PST from the U.S. Army’s Reagan Test Site at Kwajalein Atoll in the Republic of the Marshall Islands. Approximately six minutes later, a Ground-Based Interceptor was successfully launched from Vandenberg Air Force Base, Calif. Both the target missile and Ground-Based Interceptor performed nominally after launch. However, the Sea-Based X-band radar did not perform as expected.”

See also: WIRED Danger Room.

Test failure

FY 2007 – 2009

SBX deployed, supported, begin participating in tests.

X-Band install

March 23/09: Sub-contractors. Raytheon announces a $27 million contract from Boeing to support the Ground-based Mid-course Defense system’s 6-month bridge effort. Work will include continued evolution, maturation, test, and verification of the Raytheon-built X-Band Radar aboard the Boeing-developed SBX, plus work on the Upgraded Early Warning Radars at Beale Air Force Base, CA, and at Fylingdales, England; and the Cobra Dane Upgrade Radar at Shemya, AK.

Dec 5/08: Testing. The USA’s Ground-based Midcourse Defense (GMD) system successfully intercepts a target warhead in a live-fire test that includes SBX.

The long-range ballistic missile target lifted off from the Kodiak Launch Complex in Alaska. In response, a GMD interceptor missile was launched from Vandenberg Air Force Base, CA, and received target data updates from the GMD fire control system, which collected and combined data from 4 different sensors: naval AEGIS Long Range Surveillance and Track system; the AN/TPY-2 land-based; the Upgraded Early Warning Radar at Beale Air Force Base, CA; and SBX. After flying into space, the interceptor released its exoatmospheric kill vehicle, which tracked, intercepted and destroyed the target warhead. Norm Tew, Boeing’s chief engineer for GMD:

“This test was an important milestone for the Sea-Based X-Band Radar… This was the first intercept test in which data from SBX was combined with data from the other sensors to provide tracking data and guidance aimpoint updates to [a live] interceptor.”

See: Boeing.

July 18/08: Testing. The U.S. Missile Defense Agency tests the land-based Ground-based Midcourse Defense (GMD) system of sensors, including SBX. While previous tests typically involved a single target-tracking sensor, this test used 4: a ship-mounted AEGIS Long Range Surveillance and Track system in the Pacific; an AN/TPY-2 radar in Juneau, AK; the Upgraded Early Warning Radar at Beale Air Force Base, CA, and the Sea-Based X-Band Radar (SBX) in the Pacific.

During the test, the sensors detected, tracked and assessed a long-range ballistic missile target launched from the Kodiak Launch Complex in Alaska. The sensors provided target information via ground and satellite links to GMD’s dual-node, distributed fire control system, located at Fort Greely, AK, and NORAD HQ in Colorado Springs, CO. Boeing.

March 17/08: Support. Raytheon announces 2 two task orders worth $28.3 million, as part of an indefinite-delivery/ indefinite-quantity Consolidated Contractor Logistics Services program to operate and sustain the US MDA’s X-Band radars (AN/TPY-2 used in the FBR and THAAD, GBR-P radar, and XBR/SBX). The first task order, valued at $1.2 million, provides management services for the operation and sustainment of the Raytheon-developed X-Band radar (XBR) aboard the Sea-Based X-Band radar (SBX) vessel and subsequent task orders. The second task order, valued at $27.1 million, covers the XBR/SBX’s day-to-day management, direction and control, and operations.

Raytheon adds that this contract award signifies a long-term partnership between Raytheon and MDA to consolidate operations and sustainment, designed to improve operational availability and reduce the total cost of ownership by identifying and leveraging efficiencies and improvements throughout the missile defense mission. This contract is structured to include a 5-year base period worth $756 million, plus 5 one-year options, bringing the total potential value to $1.9 billion over 10 years.

Work will be performed at Raytheon Integrated Defense Systems Missile Defense Center in Woburn, MA; Integrated Air Defense Center in Andover, MA; and by Raytheon Technical Services Company personnel at sites designated by the MDA.

Sept 20/07: Infrastructure. Boeing announces that the Sea-Based X-Band Radar (SBX) mooring system has been installed at SBX’s homeport near the Aleutian island of Adak, Alaska. Boeing sub-contractor Manson Construction used tugs, barges and cranes to place the mooring system’s 8 anchors on the bottom of Kuluk Bay. Heavy machinery aboard a barge then dragged the 75-metric-ton anchors, embedding them into the sea bed. The construction team completed the installation 3 weeks ahead of schedule.

Boeing’s partners in this effort included partners Manson Construction Co., Golder Co., Glosten Associates, the US Missile Defense Agency; and the American Bureau of Shipping, which had to ensure that the work met all mooring installation standards.

March 21/07: Testing. The US MDA completes a Ground-based Midcourse Defense (GMD) system test using the SBX radar, which detected, tracked and assessing a long-range ballistic missile target launched from Vandenberg Air Force Base, CA.

This was primarily a test of the system’s sensors and handoffs. As part of the GMD system, SBX provided that target information via satellite to GMD’s Colorado-based fire control system, which used the data to simulate a target shootdown with a simulated ground-based interceptor. Boeing.

Jan 4/07: Support. Raytheon Company has announced a $32.7 million subcontract to provide sustainment support for the X-Band Radar (XBR) portion of the Sea-Based X-Band Radar (SBX). The award was made by Boeing Integrated Defense Systems, as SBX is considered to be part of the Ground Based Midcourse Defense (GMD) element of the Ballistic Missile Defense System (BMDS), and Boeing is the prime contractor for that segment.

Raytheon Integrated Defense Systems (IDS) will provide trained personnel for on-platform sustainment and operation of the XBR, along with radar maintenance and development of spares. The contract will run through 2007, and work will be performed at the company’s Missile Defense Center in Woburn, MA; the Integrated Air Defense Center in Andover, MA; and Raytheon Technical Services Company on site at the SBX platform.

FY 2003 – 2006

From initial design to development; Done, but not ready for prime time.

Building SBX-1
(click to view full)

Aug 28/06: Stuck in Hawaii. SBX was supposed to be in Adak by now, but it’s still in Hawaii. The non-governmental Project On Government Oversight looks at the issues and glitches that are keeping it in port, via a link to a Chicago Tribune article and a leaked “For Official Use Only” June 2/06 document entitled “SBX-1 Operational Suitability and Viability Assessment” [PDF].

Most of the issues are typical post-shakedown items re: adequate training, drills & procedures mature enough, certifications required, recreation facilities, etc. Other issues like the crane’s ability to handle at-sea tasks, electrical/propulsion limitations, etc. are more serious.

Stuck in Hawaii

June 8/05: Support. The Raytheon Co. in Waltham, MA receives an indefinite delivery/ indefinite quantity contract to provide logistics support services to operate and maintain up to 4 forward-based X-Band transportable radars to support the Ballistic Missile Defense System. The maximum potential value of the contract is $260.9 million. Most work will take place at Raytheon Integrated Defense Systems in Woburn, MA from May 26/05 through May 25/10. The Missile Defense Agency issued the contract (HQ0006-05-C-0016).

At this point, the platform is expected to arrive in Adak, Alaska on schedule by late December 2005, and may get a full test when it nears Hawaii and a nearby missile range on its voyage north. Integration, testing and certification will evaluation will continue throughout its voyage. Meanwhile, the final touches are being put on the sea-based X-band radar system, which is expected to ship out on a 20,000-mile (32,000-km) trip from Ingleside/Corpus Christi, TX to Adak, AK in the Aleutian Islands.

April 5/05: Raytheon announces that it BMDS X-Band Radar has been lifted aboard the SBX-1 platform.

Jan 27/03: The Boeing Co. in Anaheim, CA received a $747.5 million cost-plus-award-fee modification to contract HQ0006-01-C-0001, for completion of the development of Sea-Based Test X-Band Radar (SBX) capability. Boeing will continue to develop a Test X-Band Radar (XBR) capability in support of the Ground-Based Midcourse Defense Program as a multi-phased acquisition, and this modification is described as:

“…necessary to ensure that a Test XBR is ready to be integrated into the Ballistic Missile Defense System Test Bed in the fourth quarter of fiscal year 2005. Raytheon Electronic Systems, a major subcontractor, in Bedford, Mass., will primarily perform the effort.”

Phase one of the SBX effort was awarded during the fourth quarter of fiscal year 2002, and an effort was announced in November 2002 for acquisition of radar long-lead items and associated labor costs. The Missile Defense Agency issued the contract (HQ0006-01-C-0001).

Main SBX development contract

Nov 21/02: Long-lead. The Boeing Co. in Anaheim, CA received a $30 million cost-plus-award-fee contract modification for acquisition of long-lead items associated with the Test X-Band Radar (XBR) capability in support of the Ground-Based Midcourse Defense Program, as well as associated labor costs. Subject to completion of environmental analysis, this modification is necessary to ensure that a Test XBR is ready to be integrated into the Ballistic Missile Defense System Test Bed in the 4th quarter of FY 2005. Raytheon Electronic Systems, a major subcontractor, in Bedford, MA, will primarily perform the effort.

None of these funds will be used to acquire the sea-based platform, in accordance with direction contained in the Joint Explanatory Statement accompanying the conference report for H.R. 5010 (P.L. 107-248), the FY 2003 Department of Defense Appropriations Act (HQ0006-01-C-0001).

Aug 1/02: Initial Design. The Boeing Co. in Anaheim, CA received a cost-plus-award fee contract modification for development of a Sea-Based Test X-band Radar capability in support of the Ground-Based Midcourse Defense Program.

This effort will be accomplished in a phased approach. At this time, only Phase 1 is being executed, for the reservation of the sea-based platform and preliminary design effort in the amount of $31 million. The principal place of performance will be Bedford, MA (HQ0006-01-C-0001).

Preliminary design

Additional Readings and Sources Background: SBX

• US MDA – Sea-Based X-Band Radar [PDF].

• Claremont Institute, MissileThreat.com – Sea-Based X-Band Radar (SBX).

• GlobalSecurity.org – Sea-Based X-Band radar.

• Raytheon – Sea-Based X-Band Radar for Missile Defense [PDF].

Background: Related Systems

• HowStuffworks.com – How Missile Defense Systems Will Work.

• Boeing – Ground-based Midcourse Defense (GMD) System.

• DID – CEC: Cooperative Engagement for Fleet Defense.

• Foxtrot Alpha – These Are The Wild Radar Ships That Make Missile Defense Possible. SBX is included, along with the Cobra King system, SS Pacific Tracker, and several others. June 24/14 article.

News & Views

• US National Research Council (September 2012) – Making Sense of Ballistic Missile Defense: An Assessment of Concepts and Systems for U.S. Boost-Phase Missile Defense in Comparison to Other Alternatives It goes far beyond that, with well-researched recommendations across the entire BMD array.

• MostlyMissileDefense (Aug 28/12) – Ballistic Missile Defense: Why the Current GMD System’s Radars Can’t Discriminate. And why X-Band is better.

• Report to the US Missile Defense Agency (June 2/06) – SBX-1 Operational Suitability and Viability Assessment [PDF]. Submitted by L-3 Communications subsidiary SY Coleman.

• Reuters (June 7/05) – Missile defense radar nearing completion in Texas.

• SpaceWar.com (May 23/05) – Radome Successfully Installed on Sea-Based X-Band Radar.

Americas

The US pace and Missile Systems Center is ordering new missile defense satellites. Lockheed Martin will manufacture the three Next Generation Overhead Persistent Infrared Geosynchronous Earth Orbit Space Vehicles at a cost of $2.9 billion. The satellites will be a follow on to the US Space Based Infrared System (SBIRS) program. The SBIRS architecture includes a resilient mix of satellites in geosynchronous earth orbit (GEO), payloads in highly elliptical orbit (HEO), as well as ground-based hardware and software. The integrated system supports multiple missions simultaneously, while providing robust performance with global, persistent coverage. The Next-Gen OPIR will succeed the current SBIRS by providing improved missile warning capabilities that are more survivable against emerging threats. This order supplements a similar contract to be awarded to Lockheed Martin, that sees for the production of two polar space vehicles. The contract encompasses a variety of tasks ranging from requirements analysis to a system critical design review. Work will be performed at Lockheed’s facility in Sunnyvale, California, and is expected to be completed by April 30th, 2021.

The Air Force is boosting its lethality with help from researchers at George Mason University. The University is receiving a cost contract for hardware and software valued at $60.4 million. The objective of this contract is to use existing infrastructure and proven technologies as means to enhance the capabilities of the Mobile Unmanned/Manned Distributed Lethality Airborne Network (MUDLAN) architecture. Under the contract, airborne high-bandwidth, multi-beam common datalink, autonomous connectivity will be demonstrated between tactical data-links and swarming unmanned aircraft systems and small unmanned aircraft systems. First concrete concepts of distributed lethality were introduced in January 2015 as a response to the development of very capable anti-access area-denial (A2/AD) weapons and sensors specifically designed to deny access to a contested area. The plan is to fully interlink submarines, ships, UAVs and fighter jets so that they can track, identify and engage enemy forces simultaneously. Work will be performed in Fairfax, Virginia, and is expected to be completed by August, 2022.

The Air Force One’s little brother is set to receive an interior makeover. The awarded $16 million contract enables Boeing to make all necessary changes to the C-32A so that its interior commensurates with the President’s VC-25A, better known as Air Force One. Changes include new interior elements, cleaning and painting efforts and replacing the current double-seat configuration with a triple-seat configuration. The C-32 is a specially configured version of the Boeing 757-200 commercial intercontinental airliner. The primary customers are the vice president, using the distinctive call sign “Air Force Two,” the first lady, and members of the Cabinet and Congress. Work will be performed at Boeing’s facility in Oklahoma City and is scheduled for completion by August 2019.

Middle East & Africa

Israel will send its ‘Sons of Sa’ar’ to protect its Mediterranean gas fields and its exclusive economic zone. The Israeli Navy is set to receive four next-generation Sa’ar 6 corvettes between 2019 and 2024. The 300-feet-long warships, which are currently being built in Kiel, Germany, will be packed to the gills with highly sensitive detection equipment — to monitor both the surrounding sea and airspace — as well as offensive weapons and defensive missile interceptors. The ships will be equipped with the ‘Naval Dome’, essentially a navalized version of the Iron Dome, with the Barak-8 missile at its core. The Barak-8, and aims to deliver up to 42 mile of range, thanks to a dual-pulse solid rocket motor whose second “pulse” fires as the missile approaches its target. This ensures that the missile isn’t just coasting in the final stages, giving it more than one chance at a fast, maneuvering target. The missile’s most important feature may be its active seeker. Instead of forcing its ship or land-based radar to “paint”/illuminate its target at all times, the Barak 8 can be left alone once it is close to its target. This is an excellent approach for dealing with saturation attacks using older ship radars, which can track many targets but illuminate just a few. The Barak-8 was developed by IAI in collaboration with Israel’s DDR&D, India’s DRDO (Defense Research and Development Organization), the navies of both countries, Rafael Advanced Defense Systems Ltd., IAI’s ELTA Group and local industries in India.

Europe

The Spanish Ministry of Defense is looking for UAV systems to be deployed overseas. The military wants to procure a UAS that is light weight (20kg class) and must be suitable for protect troops that are posted on overseas training missions where local protection and security levels are minimal. The running bidding contest states the the country wants to purchase two systems, each consisting of three UAVs and their payload at a cost of $4.9 million. The contract also includes two ground stations and required launching and recovering systems. Currently there are several systems on the market that would fulfil Spain’s requirement. Considering the fact that Spain likes to support its domestic industry one likely contender could be the Fulmar X. Others include Insitu’s ScanEagle and Aerovironment’s Puma AE.

Jane’s reports that the UK is buying counter-unmanned aircraft system developed by Israeli defense contractor Rafael. According to Rafael, Drone Dome is an innovative end-to-end defence system designed to provide effective airspace defence against hostile drones, including micro and nano drones used by terrorist groups to gather intelligence and carry out aerial attacks. The C-UAS provides 360° circular coverage and is designed to detect, track, and neutralize drones classified as threats flying in No-Fly zones. The system integrates subsystems from different Israeli specialist manufacturers, including RADA that provides the RPS-42 Radar and communications intercept unit provide early warning and target detection, coupled with Controp’s MEOS EO/IR observation used for target recognition. The electronic attack segment is represented by C-Guard RD provided by Netline. RAFAEL’s Command and control system integrates these subsystems to enable effective and simple operation by a single user. The Drone Dome is designed to operate autonomously, or from command and control centers. No details pertaining to delivery timelines or contract values were disclosed.

Asia-Pacific

Russia is launching a modernization program for its ageing fleet of Tu-95MS long-range strategic bombers. Despite being a Soviet-era aircraft the Tu-95MS conducted a number of bombing sorties in Syria where it attacked a total of 66 targets with cruise missiles. Between 1979 and 1993 several dozen Tu-95MSs were produced. The ‘Bear’ is powered by four turboprop engines and can be equipped with either 6 or 16 Kh-55 missiles and carry a further eight Kh-101 air-launched cruise missiles or 14 Kh-65 anti-ship missiles. Self-defence capabilities include two 23mm automatic cannons and electronic jamming equipment. The modernization will include an upgraded NK-12MPM engine, new electronics, a new navigation system and enhanced weapon systems. Work will be performed at Tupolev’s Taganrog Aviation Plant, with the first overhauled Tu-95MSM scheduled to be ready for departure by the end of 2019. Russia plans to keep the planes in service until 2040.

The government of the Philippines is receiving a Special Airborne Mission Installation and Response (SABIR) system as part of a US military assistance package. The system has a price-tag of $15 million and will enhance the Philippine military’s maritime domain awareness, airborne command and control, counterterrorism, and humanitarian assistance and disaster relief (HADR) capabilities. The system will be installed on C-130 aircraft and will transform the airframe into a sophisticated C4ISR platform which retains it basic cargo aircraft capacity. SABIR is a system of individual “bolt-on” modular components that can be configured in a number of ways to support various missions, aircraft configurations, and other customer-specific requirements. This SABIR system will be operated by the PAF’s 300 Air Intelligence and Security Wing (300 AISW) out of Benito Ebuen Air Base, Mactan.

Today’s Video

Watch: Osprey performs take-off and landing on aircraft-carrier.

SBIRS-High
(click to view full)

The Space Based Infrared System (SBIRS)-High satellite program is a key component of the USA’s future missile alert system, designed to give maximum warning and monitoring of ballistic missile launches anywhere in the world. The new satellites will replace the existing Defense Support Program (DSP) fleet. Their infrared sensors have 3x the sensitivity of DSP and 2x the revisit rate, while providing better persistent coverage.

Unfortunately, the program has been beset by massive cost overruns on the order of 400%, technical challenges that continue to present problems, and uncertainties about performance. Despite these problems, the U.S. Air Force is proceeding with the program, and has terminated potential alternatives and supplements. However, as part of a January 2015 effort to institute cost reforms, the Air Force will weaken requirements for the program, and at least three other major procurement programs.

SBIRS – High: Current State

Caption

The SBIRS team is led by the Infrared Space Systems Directorate at the U.S. Air Force Space and Missile Systems Center, Los Angeles Air Force Base, CA. Lockheed Martin Space Systems in Sunnyvale, CA is the SBIRS prime contractor. Northrop Grumman Electronic Systems in Azusa, CA as the payload subcontractor, and Lockheed Martin Information Systems & Global Services in Boulder, CO is the ground system subcontractor.

SBIRS-High GEO are satellites, while SBIRS-High HEO (High Elliptical Orbit) are payloads hosted on spacecraft with classified launch dates. At present, 2 HEO are in service, and a 3rd HEO payload is prepping for launch. The first SBIRS High HEO payload was declared operational in November 2008.

The first SBIRS-High GEO satellite launch was pushed back many times, thanks to significant program delays that moved the initial launch back from 2002. SBIRS GEO-1 wasn’t delivered to Cape Canaveral until March 2011, and the launch actually took place in May 2011.

Increment 1 of the program used the SBIRS Control Segment and User Segment, operating with DSP satellites, to handle current military capability. Initial Operational Capability was attained Dec 18/01, consolidating the operations of the “DSP” and “Attack” and “Launch Early Reporting to Theater” missions.

It was eventually joined by SBIRS payloads in space, currently referred to as “SBIRS Effectivity 5,” which has been deemed both operationally effective (performance) and operationally suitable (maintained and supported). As of March 2014, SBIRS HEO-1 and HEO-2 are in use, and so are SBIRS GEO-1 and GEO-2.

The program’s final state is Increment 2, which is covered below.

SBIRS: Budgets & Next Steps

About 12 years after the 1st SBIRS satellite was supposed to launch, the Pentagon still has a lot of work to do en route to the final Increment 2. That state will include 2 hosted SBIRS HEO payloads, and 4 satellites in geosynchronous orbit. Increment 2 also involves new ground system software and hardware for consolidated data processing across DSP and SBIRS, and improved SBIRS performance.

The first step is fixing GEO-1. Other software problems took precedence, so GEO-1 launched without event recovery software intended to re-establish ground control in case of a failure. Given successful recovery software testing of GEO-2, the USAF plans to upload the software to GEO-1 in Q4 2014.

SBIRS GEO-3 and GEO-4 have run into a number of problems that have added costs and delays: GEO-3 will be delivered in September 2015 now.

The Block 10 mobile ground system (MGS) software increment is expected to be delivered in March 2016. It will let the USAF process integrated data from the DSP, SBIRS HEO sensors and SBIRS GEO, with fully-tuned sensor data that’s cleared of background noise like irrelevant light sources. The tuning feature was originally supposed to wait until 2018.

GEO-4 will be delivered in September 2016 now.

MGS Block 20 software is expected to achieve certification in June 2018. The program plans to fully meet operational requirements in 2019.

GEO-5 and GEO-6 will be in storage for quite some time after they’re delivered, since they’re scheduled to replace GEO-1 and GEO-2 at the end of their useful lives. These satellites will feature further improvements, including a Unified S-Band uplink frequency with a modulation scheme to the existing L-Band Space to Ground Link System.

Alternatives, Interrupted

Raytheon’s 3GIRS

According to US GAO auditors, the SBIRS program has suffered from immature technologies, unclear requirements, unstable funding, underestimated software complexity, poor oversight, and other problems that have resulted in billions of dollars in cost overruns and years in schedule delays. The cost of the program has ballooned from an original $4.8 billion estimate to over $18.8 billion. Normally, this kind of performance would produce program cancellation, but the USAF had no alternatives for a mission that must be carried out: early detection of ballistic missiles, and detection of nuclear detonations.

In 2006 the USAF finally began a parallel effort known as the Alternative Infrared Satellite System (AIRSS). AIRSS/3GIRS was intended to ensure that the nation’s missile-warning and defense capabilities could be sustained, even in SBIRS-High failed. It showed early progress, and could have provided a less expensive supplement to the SBIRS-High constellation. By the time 3GIRS began to show progress, however, SBIRS was beginning to show adequate performance, and was now too far advanced to cancel. The USAF has continued to develop some of the ideas in 3GIRS via research and demonstrations involving commercially hosted payloads, but SBIRS will fulfill the missile warning role going forward.

Contracts and Key Events

SBIRS acquisition is led by USAF Space and Missile Systems Center’s Infrared Space Systems Directorate at Los Angeles AFB, CA and USAF Space Command operates the system from Colorado. Lockheed Martin is the SBIRS prime contractor, and Northrop Grumman is the payload integrator.

Note that many of the program’s problems occurred before FY 2009. They are not included here for the time being.

FY 2014 – 2018

Contract for GEO-5 and GEO-6.

SBIRS-High GEO
(click to view full) FY 2018

August 16/18: SBIRS replacement underway The US pace and Missile Systems Center is ordering new missile defense satellites. Lockheed Martin will manufacture the three Next Generation Overhead Persistent Infrared Geosynchronous Earth Orbit Space Vehicles at a cost of $2.9 billion. The satellites will be a follow on to the US Space Based Infrared System (SBIRS) program. The SBIRS architecture includes a resilient mix of satellites in geosynchronous earth orbit (GEO), payloads in highly elliptical orbit (HEO), as well as ground-based hardware and software. The integrated system supports multiple missions simultaneously, while providing robust performance with global, persistent coverage. The Next-Gen OPIR will succeed the current SBIRS by providing improved missile warning capabilities that are more survivable against emerging threats. This order supplements a similar contract to be awarded to Lockheed Martin, that sees for the production of two polar space vehicles. The contract encompasses a variety of tasks ranging from requirements analysis to a system critical design review. Work will be performed at Lockheed’s facility in Sunnyvale, California, and is expected to be completed by April 30th, 2021.

FY 2009 – 2015

March 3/15: The Air Force Space and Missile Systems Center finished a three-day test of the Increment 2 ground control system for SBIRS. The Increment 2 system features a single control center to operate all three types of satellite, with a single backup system.

Jan 23/15: With U.S. Commerce Department commercial satellite image resolution limits being somewhat lifted starting in February, the National Geospatial-Intelligence Agency (NGA) is moving to exploit what is expected to be a flood of additional imagery resources with quicker update frequencies.

Jan 16/15: As part of its effort to institute cost reforms, the U.S. Air Force will weaken requirements for the space-based infrared system (SIBRS), among others.

Sept 30/14: GEO-4. Northrop Grumman delivers the SBIRS GEO-4 satellite payload, which will now be integrated with the SBIRS GEO-4 satellite bus in final assembly, integration and test at Lockheed Martin’s Sunnyvale, CA facility. Sources: Lockheed Martin and NGC Sept 8/14, “Lockheed Martin and Northrop Grumman Deliver Payload for Fourth SBIRS Missile Defense Early Warning Satellite”.

Sept 30/14: Support. Lockheed Martin Space Systems in Sunnyvale, CA receives a $44.2 million contract modification for SBIRS FY 2014 studies and systems modifications, contractor logistics support, and sustainment of the baseline system. $21.1 million in FY 2014 USAF missile budgets are committed immediately.

Work will be performed in Boulder, CO; Sunnyvale, CA; Azusa, CA; Buckley AFB, CO; and Schriever AFB, CO, and is expected to be complete by Sept 30, 2015. The USAF Space and Missile Systems Center Infrared Space Systems Directorate Contracting Division, El Segundo, CA, manages the contract (FA8810-13-C-0017, PO 0029).

Sept 30/14: Support. Lockheed Martin Space Systems in, Sunnyvale, CA receives a $37.4 million contract modification to for SBIRS studies directed in response to deficiencies, failures or evolving requirements; changes in external user data needs or interfaces; or changes in technology. All funds are committed immediately, using FY 2013 USAF O&M budgets.

Work will be performed at CO Springs, CO; Boulder, CO; and Greely, CO, and is expected to be complete by Sept 30/16. Fiscal 2013 operations and maintenance funds in the amount of $37,438,157 are being obligated at the time of award. Space and Missile System Center, Los Angeles AFB, CA, manages the contract (FA8810-13-C-0002, PO 0031).

Sept 5/14: GEO-5/6. A $42.9 million contract modification will improve GEO-5 and GEO-6 with dual-band telemetry, offering better tracking and communications. This includes the addition of a Unified S-Band uplink frequency, and a modulation scheme to the existing L-Band Space to Ground Link System uplink. Lockheed Martin will redesign the interfacing, software, power, thermal, and structures accordingly for the new transponder box and cabling. $10.7 million in FY 2012 USAF missile budgets are committed immediately.

Work will be performed at Sunnyvale, CA, and is expected to be complete by July 31/21 (FA8810-13-C-0001, PO 0003).

June 24/14: GEO-5/6. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $1.8635 billion contract modification, in order to finish SBIRS Geosynchronous Earth Orbit 5 and 6 satellites, and provide performance incentives. The contract modification also includes adding options for acoustic testing, launch vehicle integration, launch and early on-orbit testing, and contractor operations support. Total contracts announced to date for SBIRS GEO-5 and GEO-6 add up to a maximum of $2.4017 billion, or $1.2 billion per satellite:

• $1,863.5M main contract
  
• $42.9M to redesign & improve telemetry, communications, and uplinks (Sept 5/14)
  
• $20.0M to accelerate production (May 20/14)
  
• $42.4M for engineering & advance buys (Sept 19/13)
  
• $284.4M for advance buys (Feb 20/13)
  
• $66.6M for engineering (Dec 19/12)
  
• $81.9M for engineering and advance buys (Oct 25/12)

$655 million is committed immediately: $266 million in FY 2013 missile budgets and $389 million in FY 2014 missile budgets. This contract is not multi-year (FA8810-13-C-0001, PO 0001). Sources: Pentagon | Lockheed Martin, “U.S. Air Force Awards Lockheed Martin Contract For Next Two SBIRS Missile Defense Early Warning Satellites”.

GEO-5 & GEO-6

May 30/14: HEO-4. Lockheed Martin Space Systems Center in Sunnyvale, CA receives an extra a $41.2 million contract modification to add HEO-4 launch and early on-orbit test (LEOT) capabilities to the HEO-3 baseline, bringing the total contract to $3.215 billion. “This HEO 3/4 transition concept of operations is required to support the HEO 3/4 payloads transition to the Increment 2 operational baseline.”

$36.5 million in USAF FY 2013 RDT&E funds is committed immediately. Work will be performed until Sept 30/18 at Sunnyvale and Azusa, CA; and in Boulder, Aurora, and Colorado Springs, CO (FA8810-08-C-0002, PO 0075).

May 20/14: GEO-5/6. Lockheed Martin Space Systems Center in Sunnyvale, CA receives a $20 million modification to accelerate production of SBIRS GEO 5 and GEO 6; specifically, they’re buying planning and production, and parts including hinges, valves, structures and special test equipment. This brings the contract to $346.8 million so far.

All funds are committed immediately, using FDY 2013 USAF missile budgets. Work will be performed at Sunnyvale, CA and is expected to be complete by June 19/16 (FA8810-13-C-00001, P00004).

May 12/14: GEO-4. Lockheed Martin has completed the propulsion module for SBIRS GEO-4, and is now proceeding with satellite assembly, integration and test. Sources: Space Daily, “Propulsion Module For SBIRS GEO-4 Satellite Completed”.

April 17/14: SAR. The Pentagon finally releases its Dec 31/13 Selected Acquisitions Report, which says that SBIRS 5 & 6 may cost less than expected. They still have to finalize that contract, however:

“Subprogram costs for the Block Buy (GEO 5-6) decreased $460.9 million (-11.9%) from $3,869.3 million to $3,408.4 million, due primarily to a reduced estimate to reflect a fixed price contract proposal for GEO 5-6 (-$362.4 million) and Congressional and sequestration reductions (-$118.5 million).”

Slight cost decrease for GEO-5/6

March 31/14: GAO Report. The US GAO tables its “Assessments of Selected Weapon Programs“. Which is actually a review for 2013, plus time to compile and publish. SBIRS is projected to cost $18.886 billion overall (incl. $11.806 billion RDT&E, $6.817 billion Procurement), which is a 393% increase over the original $4.8 billion price tag. Meanwhile, there’s still a fair bit of work to do on the constellation:

“The program launched the first satellite without event recovery software intended to re-establish ground control of the satellite in the event of an unforeseen failure, so that other software issues could be addressed. Given successful recovery software testing on the second GEO satellite, the Air Force plans to upload the software to the first satellite in the fourth quarter of 2014.

The Block 10 software ground system increment is expected to be delivered in March 2016, and is intended to facilitate processing of integrated data from the Defense Support Program satellites, HEO sensors and GEO satellites now on-orbit. According to the program, this software delivery will also provide the capability for fully-tuned starer sensor data, which means that the data returned from the satellites will be cleared of background noise, such as irrelevant light sources. This capability was previously planned for inclusion in a subsequent Block 20 software delivery which is expected to achieve certification in June 2018. The program plans to fully meet operational requirements in 2019.”

GAO Report & Overall costs

March 12/14: GAO Report. The US GAO offers details of the USA’s major military space programs, in GAO-14-382T – “Space Acquisitions: Acquisition Management Continues to Improve but Challenges Persist for Current and Future Programs.” SBIRS is projected to cost $18.9 billion overall, a 393% increase over the original $4.8 billion price tag.

The production contract for GEO-5 and GEO-6 is slated for “early 2014,” but hasn’t arrived yet. The GEO-3 satellite is expected to deliver to the USAF in late 2015, but the program won’t hit Full Operational Capability until 2019 (HEO payloads + 4 GEO satellites + completion of first 2 software blocks + delivery of mobile ground assets.

March 4-11/14: FY15 Budget. The US military slowly files its budget documents, detailing planned spending from FY 2014 – 2019. SBIRS figures are incorporated into the updated table and chart above, which now has an accompanying chart.

Jan 28/14: DOT&E Testing Report. The Pentagon releases the FY 2013 Annual Report from its Office of the Director, Operational Test & Evaluation (DOT&E). SBIRS Effectivity 5 is deemed operationally effective and suitable, ever since the Air Force resolved an open deficiency identified a classified December 2012 report.

DOT&E can say that GEO-1’s scanning sensor payload is meeting accuracy and sensitivity requirements, being least as capable as legacy DSP sensors, while providing detection over a given location 2x as frequently. That last statistic matters, given a missile’s short boost time. Overall, GEO-1’s presence improved accuracy of both strategic and theater missile warning mission data, while improving the missile defense mission. SBIRS support was functional and effective, and no major problems were observed during the integrated and operational test periods.

The department did add that the USAF “continues to address problems identified… with the overall system, technical intelligence missions, and specific Information Assurance postures.” Of 9 DOT&E previous recommendations, the USAF satisfactorily addressed 1, is in the process of addressing 5, and made insufficient progress with 3.

Nov 25/13: GEO-2. SBIRS GEO-2 receives USAF Space Command’s Operational Acceptance, 8 months after its March 19/13 launch from Cape Canaveral. Sources: LMCO, “Lockheed Martin-Built SBIRS GEO-2 Missile Defense Early Warning Satellite Certified for Operation”.

FY 2013

GEO-2 delivery and launch. Work on GEO 5 and 6. HEO-3 delivery.

SBIRS sharing
click for video

Sept 30/13: Support. Lockheed Martin Space Systems Co. in Sunnyvale, CA has been awarded a sole-source $48.6 million contract for SBIRS HEO/ GEO’s FY 2014 flight operations support (FOS) and factories support. Lockheed Martin will provide ongoing sustainment, using FOS in SBIRS Auxiliary Support Center and SBIRS Payload On-Orbit Test Sustainment. This includes ongoing sustainment of the flight software and databases, labs infrastructure, and performance trending of the payload.

Work will be performed at Sunnyvale, CA, and is expected to be complete by Sept 30/14. FY 2014 USAF operations and maintenance funds will be obligated when they become available. The USAF Space and Missile Systems Center’s Infrared Space Systems Contracts Division at Los Angeles AFB, CA manages the contract (F04701-95-C-0017).

Sept 27/13: Support. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $96.3 million contract modification for SBIRS contractor logistics support, including operations crew support and organizational and depot maintenance. Funds will be committed if needed.

Work will be performed in Boulder, CO and at Buckley AFB< CO, and is expected to be complete on Sept 30/14. No funds are being obligated at time of award. The USAF Space and Missile Systems Center’s Infrared Space Systems Contracts Division at Los Angeles AFB, CA manages the contract (FA8810-13-C-0002, PO 0011).

Sept 26/13: Australia. Northrop Grumman Electronic Systems Intelligence Surveillance in Azusa, CA, receives a $12.1 million contract for the Australian Mission Processor Phase 3 (AMP 3). Northrop Grumman will design, develop, procure, test, install, and integrate the AMP 3 system, which will be capable of processing both DSP and SBIRS GEO satellite infrared data. The contractor will also provide 3 years of ongoing contractor logistics support.

Work will be performed in Azusa, CA, and is expected to be complete by March 2018. This award is the result of a sole source acquisition, as a 100% unclassified foreign military sales to the Government of Australia. The USAF Space and Missile Systems Center’s Infrared Space Systems Contracts Division at Los Angeles AFB, CA manages the contract (FA8810-13-C-0005).

Australia AMP-3

Sept 19/13: GEO-5 & 6 Ph2a. Lockheed Martin Space Systems in Sunnyvale, CA receives a $42.4 million contract modification for GEO-5 and GEO-6 one-time engineering and long-lead materials. When added to past long-lead contracts (q.v. Feb 20/13) the total is now $408.7 million. The next order after February’s was supposed to be the main buy, but this order seems to have intervened.

All funds are committed immediately, using FY 2011 and 2012 funds. Work will be performed at Sunnyvale, CA, and the contract extends to June 19/16 (FA8810-13-C-0001, PO 0002).

July 1/13: HEO-3 delivery. Lockheed Martin delivers the 3rd HEO to the Air Force. The first 2 HEOs had been delivered in 2004 and 2005; this one is the 1st from the SBIRS Follow On Production Program (SFP), 3 1/2 years after its critical design review. Sources: Lockheed Martin, July 1/13 release.

June 28/13: Ground systems. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $75.2 million modification to SBIRS’ S2E2, Increment 1’s FY 2013 – 2016 Contractor Logistics Support, Legacy Sustainment, and Combined Task Force Support contract. All funds are committed immediately, and the total cumulative face value of the contract is $181.1 million.

They’re going to change the current Mobile Ground System (MGS) to enable processing of older DSP and new SBIRS GEO mission data, and let them perform limited contingency SBIRS GEO satellite command. They’ll also provide maintainer and (limited) operator training, and replace the existing Intermediate Maintenance Facility with the Maintenance and Operations Support Suite used for pre-deployment preparation on the S2E2 MGS Force Packages.

Work will be performed at Colorado Springs, CO, Boulder, CO, and Greeley CO, and is expected to be complete by by Jan 31/17. The USAF Space and Missile Systems Center Infrared Space Systems Directorate’s Contracting Division manages the contract (FA8810-13-C-0002, PO 0003).

May 17/13: GEO-1. Air Force Space Command declared GEO 1 operational, and recommends Integrated Tactical Warning and Attack Assessment (ITW/AA) certification of the asset to USSTRATCOM. Sources: Lockheed Martin, July 1/13 release.

GEO 1 operational

April 15/13: Budget Request. The belated FY2014 budget request submitted by the Administration makes few changes to the outlook for Space Based Infrared System (SBIRS) High EMD. The total requested in RDTE funding is down by $5 million from the previous year’s president budget, to $352.5 million. The FY15 budget is raised by almost $39 million to $279.9 million, but FY16 and FY17 are both significantly below the previous FYDP. Total cost to complete comes at $10.25 billion. EMD awards for FY 2014 are scheduled for October 2014 (which is actually already in FY15) for $230 million.

The main focus of the year is ground system development rather than space components, with Block 10 Mission Control Station (MCS) fit up (vid. April 4/11 entry) throughout 2013, following its 2012 CDR. Block 10 integration and test will then come in 2014/15.

Source: DoD Comptroller / USAF: PE 0604441F exhibit R-2.

March 28/13: GAO Report. The GAO issues its assessment of the Pentagon’s Selected Weapon Programs, and seems to take the program office’s word for it that SBIRS has turned the page:

“The 1st GEO satellite demonstrated outstanding overall data quality during its trial period. Despite the data quality, the satellite experienced a delay to operational certification to address a sporadic recurrence of a known spacecraft issue. The second satellite continues to prepare for its March 2013 initial launch capability. The ground system is mature and performing well. Program leadership recently approved the ground system completion baseline, which delivers all SBIRS ground capability required to meet system performance requirements. The production program’s cost and schedule performance is stabilizing [emphasis: DID].”

But it’s not all rosy:

“The Air Force is projecting a cost overrun of $438 million for these two satellites and a satellite delivery delay of 14 months. The estimated delivery dates for the 3rd and 4th satellites are now late 2015 and 2016.”

GEO-1 & 2 overruns

March 19/13: GEO-2 launch. Launch for SBIRS GEO-2, on board a United Launch Alliance Atlas V 401 rocket, the same type that launched SBIRS GEO-1. The 40-minute launch window opened at 5:21 pm EDT, and the launch took place immediately. All systems are working normally, and GEO-2 has achieved its launch objectives with a successful separation.

The company also used the launch to hold a STEM education event at a nearby school, touting careers in science and technology. Good idea. ULA mission page | Full live mission coverage | USAF | Lockheed Martin | STEM promotion.

GEO-2 launch

March 15/13: Support. Lockheed Martin Space Systems Company, Sunnyvale, CA is being awarded a $105.9 million cost-plus incentive-fee and fixed-price incentive-firm contract for this tranche of SBIRS contractor logistics support, legacy sustainment, and combined task force support. FY 2013 funds are being used to pay for this year’s efforts.

Work will be performed in Colorado Springs, CO, and is expected to be complete by Sept 30/16. USAF SMC’s ISK at Los Angeles AFB, CA manages the contract (FA8810-13-C-0002).

Feb 20/13: GEO-5 & 6 Ph2. A $284.4 million fixed-price incentive firm target contract covers the 2nd stage of advance procurement for SBIRS GEO 5-6, per the Sept 10/12 entry.

The contract uses FY 2011 and 2012 funds, and completes long-lead item buys for these birds at $366.3 million ($183.15M per satellite). The 3rd stage will involve satellite production under a fixed-price contract structure. Work will be performed in Sunnyvale, CA, and is expected to be complete by June 19/16 (FA8810-13-C-0001).

Jan 29/13: Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $58.4 million contract modification for the “Space Based Infrared Systems Follow-on Production Program,” using FY 2013 funds. USAF SMC later explains that it produces, launches, and transitions to operations SBIRS HEO-3, HEO-4, GEO-3 & GEO-4.

Work will be performed in Sunnyvale, CA, and is expected to be complete by April 28/16 (FA8810-08-C-0002, PO 0054).

Jan 17/13: DOT&E testing. The Pentagon releases the FY 2012 Annual Report from its Office of the Director, Operational Test & Evaluation (DOT&E). SBIRS is included, but DOT&E focuses on “SBIRS Effectivity 5,” which includes the SBIRS ground architecture, GEO-1, HEO-1 & 2, and the legacy DSP systems. They say that Effectivity 5 is operationally effective, but not yet operationally suitable in terms of maintenance, readiness, etc. What’s the problem? Sorry, that’s only in the classified report. They will say this:

“Integration of GEO-1 into the operational constellation improved accuracy of both strategic and theater missile warning mission data and did not degrade overall mission performance. SBIRS also demonstrated improved performance against the missile defense mission. SBIRS support to the technical intelligence and battlespace awareness missions was functional and effective. There were no major problems observed during the integrated and operational test periods. The SBIRS enterprise system accomplished its strategic and theater missile warning missions, successfully detecting and reporting all missile events during both real-world and simulation scenarios during these test periods. The SBIRS GEO-1 scanning sensor payload is meeting accuracy and sensitivity requirements, based on developmental and integrated test activities. It is at least as capable as legacy DSP sensors, while providing detection over a given location twice as frequently… [which] enables the ability to determine target missile type with higher confidence….”

Jan 15/13: GEO-2. GEO-2 is delivered by C-5 transport aircraft to Cape Canaveral, FL, for an Atlas V rocket launch scheduled on March 14/13. Lockheed Martin.

Jan 8/13: Lockheed Martin Space Systems in Sunnyvale, CA receives a is being awarded a $13 million contract modification for “Space Based Infrared System high component.”

Work will be performed in Sunnyvale, CA, and is expected to be complete by March 2013. The USAF Space and Missile Center at Los Angeles AFB, CA manages the contract (F04701-95-C-0017).

Dec 19/12: GEO-5 & 6. Lockheed Martin Space Systems in Sunnyvale, CA receives a $66.6 million contract modification for initial engineering associated with SBIRS GEO 5 & 6.

Work will be performed in Sunnyvale, CA, and is expected to be complete by Jan 19/16. US SMC’s IS at Los Angeles Air Force Base, CA manages the contracts (FA8810-12-C-0001, PO 0001).

Oct 25/12: GEO-5 & 6 Ph1. Lockheed Martin Space Systems in Sunnyvale, CA receives an $81.9 million contract to begin initial work on SBIRS GEO-5 and GEO-6. Work is to be complete by Aug 21/15.

This satellite buy will come in 3 phases. In this 1st phase, Lockheed Martin will complete initial engineering activities to update obsolete parts from previous designs, and buy select “long lead” spacecraft parts so they’ll be ready at the beginning of the assembly phase. Phases 2 & 3 will fund the rest of the long lead-time parts, as well as fixed-price satellite production. Grouping the buy this way allows for better economies of scale, and the parties hope to save money (FA8810-12-C-0001). See also Lockheed Martin, who says that SBIRS GEO-2 is scheduled for launch in March of 2013.

Oct 3/12: Operational Testing. The USAF announces that SBIRS GEO-1 and its associated ground system is certified to enter operational testing. That sounds like a small step, but it means that for the first time, live SBIRS GEO scanner data will be injected into existing missile warning networks. U.S. Strategic Command certification of the GEO 1 satellite and ground processing elements for full operational use is expected later this fall.

As one might imagine, ballistic missile warning satellites get tested a lot before they begin providing warning data. Those tests have been ongoing since its launch in May 2011, and the final test event reportedly ran the SBIRS system through a gauntlet that compressed nearly 10 years worth of simulated operational use into a high-intensity 2 month test period.

FY 2012

GEO 1 performs well.

GEO-2
(click to view full)

Sept 25/12: Support. Lockheed Martin Space Systems in Sunnyvale, CA receives a $54.2 million contract modification for SBIRS sustainment support. Work will be performed in Colorado Springs, CO; Boulder, CO; and Aurora, CO until March 31/13. US SMC’s ISK at Los Angeles Air Force Base, CA manages the contracts (F04701-95-C-0017, PO 0747)

Sept 24/12: Ground systems. Lockheed Martin Space Systems in Sunnyvale, CA receives a $12 million contract modification for sustainment & modifications to SBIRS Increment 1 ground system in Boulder, CO. Work is expected to be completed by Sept 30/14. USAF SMC’s ISK at Los Angeles Air Force Base, CA manages the contracts.

Sept 10/12: GEO-5 & 6. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives an $81.9 million cost-plus incentive fee contract to begin work on SBIRS GEO 5 & 6. Under this 1st phase, Lockheed Martin will complete non-recurring engineering activities, and buy select long lead spacecraft parts. The follow-on 2nd phase contract will fund procurement of the remaining long lead parts. The 3rd contract will involve satellite production under a fixed-price contract structure.

Work will be performed in Sunnyvale, CA, and will be complete by Aug 21/15. The USAF SMC/IS at Los Angeles Air Force Base, CA manages the contract (FA8810-12-C-0001). Lockheed Martin.

March 21/12: GAO report. The GAO says that USAF satellite programs are improving, but still cites some issues for SBIRS. From “DOD Faces Challenges in Fully Realizing Benefits of Satellite Acquisition Improvements” :

“The first of six SBIRS geosynchronous earth orbit (GEO) satellites successfully launched in May 2011, after a roughly 9 year delay… program officials are predicting a 1-year delay on production of the 3rd and 4th GEO satellites due in part to technical challenges, parts obsolescence and test failures. Along with the production delay, program officials are predicting a $438 million cost overrun for the 3rd and 4th GEO satellites… DOD will not be able to fully utilize the data collected from [GEO-1’s] staring sensor because the ground segment software that is to process the sensor’s data is not planned to be fully functional until at least 2018.”

March 19/12: GEO-1 Performance. The USAF seems to be very happy with its new satellite:

“On-orbit performance of the first GEO-1 satellite has proven superb. At the payload level, the GEO sensors are detecting targets 25 percent dimmer than requirements with an intensity measurement that is 60 percent more accurate than specifications. The payload pointing is nine times more precise than required, which is a key confidence measure for achieving a system level line-of-sight accuracy well within specification… interim mission performance results indicate that the system already demonstrates the ability to meet more than 90 percent of Air Force Space Command’s performance requirements for operational use. The remaining performance refinements are on track to be completed prior to the formal testing campaign slated to begin in June… This first GEO satellite is expected to be certified for operations by U.S. Strategic Command by the end of 2012.”

Performance report

Dec 13/11: Testing. Lockheed Martin announces that they’re done with thermal vacuum testing on SBIRS GEO-2. It’s the last of 7 key environmental tests, clearing the way for delivery to Cape Canaveral and launch aboard a Delta V rocket.

Lockheed Martin adds that SBIRS GEO-1, launched on May 7/11, has completed its initial calibration and testing activities, and “is performing as expected.”

FY 2011

GEO 1 launch. Cost increases. HEO. Ground systems.

GEO-1 launch
(click to view full)

Sept 29/11: Spares. Lockheed Martin Space Systems in Sunnyvale, CA receives an $11.9 million cost-plus-fixed-fee and cost-plus-award-fee contract modification “to procure the first set of spares specific for focal plane assembly hardware for [SBIRS-High]… into acceptance tested focal plane units. This effort also includes production of the next set of material necessary to fill a new spares kit, to include at least two new sensor chip assemblies.” The Infrared Space Systems Directorate at the USAF’s Space and Missile Systems Center in El Segundo, CA manages this contract (FA8810-08-C-0002, PO 0026).

DID asked them why a satellite needs spares at all, and they explained that the SBIRS payload assemblies undergo buildup and testing on the ground, before launch. If a primary part fails during this testing, the program would be in trouble without qualified spares, because they take a long time to build (long lead-time item). Having a spare available reduces risks to the overall satellite production schedule, because an acceptance-tested focal plane unit, or other available spare, can just be swapped in.

Sept 26/11: Support. Lockheed Martin Space Systems Co. in Sunnyvale, CA received a $94.8 million cost-plus-award-fee contract modification, exercising 2 options that deliver SBIRS-High logistics and sustainment support in FY 2012. Work will be performed in Boulder, CO at the Space and Missile Systems Center. The SBIRS Directorate at Los Angeles AFB, CA manages the contract (F04701-95-C-0017, PO 0710).

Sept 26/11: HEO upgrades. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives an estimated $12.2 million cost-plus-award-fee contract to upgrade the 2 HEO strings to be capable of operating 2-3 HEO satellites, while maintaining the health and safety of the offline HEO. They’ll use software based on the Interim Test Center’s geosynchronous orbit initial operations software baseline. The SMC/ISK at Los Angeles AFB, CA manages the contract (FA8810-08-C-0002, PO 0033).

July 19/11: Ground systems. Lockheed Martin Corp. in Sunnyvale, CA wins a $24.5 million cost-plus-fixed-fee SBIRS EMD contract modification. This FY 2011 contract covers hardware and software modifications that will lay the groundwork for the overall SBIRS Survivable/Endurable Evolution (S2E2) program upgrade in FY 2012 and beyond.

After some discussion with the USAF Space and Missile Systems Center’s Infrared Space Systems Directorate, we can clarify S2E2’s purpose: it evolves the satellite’s Mobile Ground System (MGS) capabilities from the previous DSP satellite system. The SBIRS program originally planned to develop its own MGS element, but cost growth on SBIRS-High has forced a change of plans to less expensive upgrades of existing systems. Considering the kind of information these ground systems are processing, mobility remains the ultimate defense against pre-emptive strikes that could silence these missile launch warnings. The S2E2 modification will become part of the program of record’s baseline, and will be reported in documents like the Pentagon’s Selected Acquisition Reports.

Lockheed Martin will pick a FY 2011 antenna platform subsystems vendor, and support the SBIRS program with a mobile ground system 2nd path radio upgrade, as well as FY 2011 S2E2 engineering and labs development. Work will be performed in Boulder, CO, and is expected to be complete in December 2012. The USAF Space and Missile Systems Center in Los Angeles AFB, CA manages this contract (F04701-95-0017).

June 27/11: Testing. Lockheed Martin Space Systems Company in Sunnyvale, CA receives an $8.2 million cost plus award fee contract modification to implement Phases 2-4 of the HEO Functional Test Article (HFTA) Phase I study. The SMC/ISK at Los Angeles AFB manages the contract (FA8810-08-C-0002, PO 0029).

June 14/11: Layoffs. Layoffs at Lockheed Martin Space Systems. This branch of the firm employs around 16,000 employees in 12 states, but intends to shed 1,200 employees by year-end, including a 25% cut in middle management to reduce impacts elsewhere. LMSS’ Sunnyvale, CA; Pennsylvania; and Denver, CO sites will be hardest hit, and the firm’s release says that it’s pushed in part by several of their major programs moving beyond the labor-intensive development phases.

Space Systems says it will offer “eligible” salaried employees an opportunity for a voluntary layoff, plus career transition support for all affected employees. Lockheed Martin.

May 20/11: GEO-1 on-orbit. SBIRS GEO-1 reaches geosynchronous orbit – passing the damaged but climbing AEHF-1 communications satellite on the way. Initial checkout tests are positive. Aviation Week | UPI.

May 7/11: GEO-1 launch. After weather conditions forced a postponement of the May 6/11 launch, SBIRS GEO-1 successfully blasts off from Cape Canaveral, FL aboard an Atlas V 401 configuration rocket. The 401 configuration consists of an RD AMROSS RD-180 booster, a Centaur upper stage with a PW Rocketdyne RL-10A engine, and a 4-meter payload fairing. USAF | ULA [incl. video] | Lockheed Martin.

GEO-1 launched

April 15/11: Program SAR. The Pentagon’s Selected Acquisitions Report ending Dec 30/10 includes SBIRS High. The program is being expanded, but cost increases haven’t stopped, either:

“Program costs increased $2,459.6 million (+16.3 percent) from $15,115.6 million to $17,575.2 million, to fully fund the fifth and sixth Geosynchronous Earth Orbit (GEO) satellites (GEOs 5 and 6) (+$1,883.6 million), plus associated support requirements in fiscal 2018 (+$212.7 million). There are additional increases to complete the Engineering, Manufacturing, and Development (EMD) space segment effort for GEOs 1 and 2 integration, launch, early orbit test, and check out (+$206.8 million), and to complete the EMD ground effort to satisfy the August 1996 Operational Requirements Document requirements (+$717.1 million). This completes the final block (Increment 2) of the SBIRS ground segment capability, which funds fiscal 2016 and beyond, and reflects total acquisition cost. These increases are partially offset by a revision in the acquisition strategy from full funding to a block buy for GEOs 5 and 6 (-$520.9 million).”

SAR

April 11/11: GEO-1. Successful completion of spacecraft fueling for SBIRS GEO-1. Its propulsion system is a dual-mode design. It operates as a pressure-regulated bipropellant (hydrazine and nitrogen tetroxide) system of fuel and oxidizer for use during orbital transfer, and a monopropellant hydrazine system for use on station.

April 4/11: Ground systems. Lockheed Martin Corp. in Sunnyvale, CA receives a $460.4 million contract modification, which pays to revise SBIRS’ ground development and delivery strategy. Following a successful Preliminary Design Review, Lockheed Martin has been contracted to deliver SBIRS Ground Systems Block 10, whose service-oriented architecture segregates the system into 4 different mission areas. The goal is to improve long term sustainment costs and improve service, using technologies that weren’t available when the original ground system was first approved.

The Block 10 system will process data from SBIRS and from legacy DSP Overhead Persistent Infrared satellites at a single operational control center, and will be fielded at 1 primary site and 1 backup site. Block 10’s new service-oriented I.T. architecture makes independent mission area upgrades possible with less expense and difficulty. It also makes SBIRS data available in a more timely and less costly way, to a larger community of users, for both real time activities and off-line analysis. That means the USAF can quickly release missile warning and battle space awareness messages to military commanders, and provide other relevant data to intelligence and missile defense organizations.

Work will be performed at Sunnyvale, CA and Redondo Beach, CA. The USAF’s Space and Missile Systems Center at Los Angeles AFB, CA manages this contract (F04701-95-C-0017, P00641).

March 28/11: GEO-1. SBIRS GEO-1 completes its final major pre-launch test. The SBIRS System Test 5001.4 Regression Test demonstrated the ability to transmit data between the spacecraft and flight control facilities, and perform the critical operational functions of the SBIRS GEO-1 integrated ground and space system. USAF.

March 7/11: GEO-1. SBIRS GEO-1 is delivered to Cape Canaveral Air Force Station, FL, on board a C-5 Galaxy superheavy cargo aircraft. It will be prepared for an early May 2011 liftoff aboard a United Launch Alliance Atlas V launch vehicle. USAF | Lockheed Martin.

Jan 7/11: GEO-4 order. Lockheed Martin Space Systems Co. in Sunnyvale, CA, receives a $424.7M contract modification, exercising the option for production of GEO Satellite 4. At this time, $75 million has been committed by the US Space and Missile System Center’s Infrared Space Systems Directorate in El Segundo, CA (FA8810-08-C-0002; P00017).

The GEO-3 and GEO-4 satellites will be near clones of the first 2, accommodating small changes such as a different star tracker, inertial measurement unit, and replacing obsolete parts. Even so, they’re expected to rack up over $400 million in cost overruns.

GEO-4

GEO-2 in BIST-1
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Dec 15/10: Support. The Scitor Corp. in El Segundo, CA won a $29.9 million contract for engineering, consulting and technical advisory support services to the Space Based Infrared Systems Directorate. $1,234,000 has been committed by the SMC/PIK at Los Angeles AFB, CA (FA8802-11-F-3013).

Dec 2/10: Lockheed Martin Space Systems Co. in Sunnyvale, CA receives an $8.8 million contract modification which will add a dual operations capability to SBIRS-High’s existing engineering, manufacturing and development contract. At this time, all funds have been committed by the SMC/ISK in El Segundo, CA (F04701-95-C-0017; P00659).

Oct 15/10: Space News reports that:

“After nearly a decade of delay, the U.S. Air Force tentatively plans to launch its first dedicated Space Based Infrared System (SBIRS) missile warning satellite April 30 but faces a narrow launch window, which means any additional hiccups in the program likely would push the mission into 2012, a service official said.

At the same time, the Air Force is renegotiating its SBIRS prime contract with Lockheed Martin Space Systems of Sunnyvale, Calif., to make improvements to the system’s ground infrastructure and data processing algorithms through the latter part of the decade ahead…”

Oct 6/10: GEO-2. The SBIRS GEO-2 satellite successfully completes integration of its 2 equipment panels onto the spacecraft core module, creating a fully assembled and integrated GEO-2 space vehicle. It took 34 days, included 134 precise connector mates between the equipment panels and spacecraft, and finished 9 days ahead of schedule. The equipment panels are responsible for holding the individual electronics components which provide the satellite’s communications, attitude control, power distribution, commanding and payload data processing.

The GEO-2 team will now proceed with Baseline Integrated System Test 2, creating the data baseline needed before environmental testing. GEO-2 is scheduled for launch in 2012. Los Angeles AFB.

FY 2010

SAR. CDR for GEO-3 & 4.

Sept 28/10: EMD. Lockheed Martin Space Systems Center in Sunnyvale, CA won an $8.3 million contract modification which will incorporate both hardware and software modifications to SBIRS-High’s existing engineering, manufacturing, and development contract. At this time, the entire amount has been committed by the ISSW/PKS in El Segundo, CA (FO4701-95-C-0017; PO0650).

Sept 13/10: Ground systems. The SBIRS ground team completes the GEO Interim Operations Ground Segment System’s integration testing for Missile Warning Message Certification, at the Interim Test Center in Boulder, CO. Given the missile-tracking mission of SBIRS GEO satellites, validating those 853 mission readiness objectives and exercising 594,000 lines of code is a good idea. Los Angeles AFB.

Aug 16-18/10: CDR for GEO-3 & 4. The USAF Space and Missile System Center’s SBIRS Wing and Lockheed Martin hold a successful critical design review in Sunnyvale, CA for SBIRS GEO-3 and SBIRS GEO-4. The review confirmed that the detailed design has addressed all electronics obsolescence issues from the previous SBIRS satellites, and lets Lockheed Martin move forward into production towards a projected GEO-3 launch in late 2014.

The GEO-3 and GEO-4 satellites will be near clones of the first 2, accommodating small changes such as a different star tracker, inertial measurement unit, and replacing obsolete parts.

CDR

July 16/10: HEO-3 Long-lead. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $34.8 million contract modification, exercising the 4th option for SBIRS HEO Payload 3 Launch and Early On-Orbit Support. At this time, $548,174 has been committed by the ISSW/PKF at Los Angeles Air Force Base, CA (FA8810-08-C-0002; P00012).

The same announcement was issued again on July 20/10, but that is a duplication.

June 30/10: Ground Systems. Researchers in the SBIRS program office at Air Force Space Command’s Space and Missile Systems Center in Los Angeles, CA successfully complete the major “5001.2 system-level test” of the interfaces between all SBIRS ground facilities and the GEO-1 satellite.

The test successfully demonstrated command and control using GEO-1’s Tri-band Antenna/Modem Suite, as well as data transmissions using frequency hopping. A team made up of people from Lockheed Martin, Northrop Grumman, The Aerospace Corporation, and the USAF tested 12 critical areas over 2 days. USAF.

June 7/10: EMD. Lockheed Martin Corp. in Sunnyvale, CA receives a $183 million contract, finalizing a set of previous production and ground systems modification contracts for the SBIRS GEO satellite, and SBIRS HEO payload. At this time, the entire amount has been committed by SMC/ISSW at Los Angeles AFB in El Segundo, CA (FA8810-08-C-0002).

June 3/10: EMD. Lockheed Martin Space Systems Corp. in Sunnyvale, CA receives a $10.9 million contract which will provide support for SBIRS-High GEO’s message certification. At this time, $2.4 million has been obligated by the SBISW/PK in El Segundo, CA (F04701-95-C-0017).

May 7/10: Testing. The National System for Geospatial Intelligence (NSG) announces that the SBIRS HEO-2 payload and associated ground system have been operationally accepted for the Technical Intelligence mission.

The planning, testing and coordination effort leading to this day involved the NSG, Air Force Space Command, and SMC’s SBIRS Wing. The previous SBIRS HEO-1 was certified on Aug 27/09. USAF Los Angeles AFB.

April 1/10: Program SAR – to 6. The Pentagon releases its April 2010 Selected Acquisitions Report, covering major program changes up to December 2009. SBIRS-High makes the list, as the planned constellation rises from 4 to 6 satellites, and other program costs continue to rise:

“SBIRS (Space-Based Infrared System) High – Program costs increased $3,561.1 million (+30.8%) from $11,554.5 million to $15,115.6 million, due primarily to a quantity increase of two Geosynchronous Earth Orbit (GEO) satellites from four to six satellites (+$2,164.1 million). There were also increases resulting from the realignment of missile procurement costs to the support category (+$162.8 million), a delay in the GEO 1 launch from 2009 to 2010 (+$372.8 million), revised estimates for implementation of a new ground acquisition strategy (+$393.8 million), and incorporation of the technology maturation and parts obsolescence effort (+$384.0 million).”

SAR

March 30/10: GAO Report. The US GAO audit office delivers its 8th annual “Defense Acquisitions: Assessments of Selected Weapon Programs report. Summary?

“The SBIRS High program continues to experience setbacks that could add to cost overruns and schedule delays. All three of the program’s critical technologies are mature and 99 percent of the expected drawings are releasable. However, program costs continue to increase due to software development problems, hardware quality issues, and testing delays on the first GEO satellite. Unplanned work continues to be a challenge for the software development effort. The program also recently discovered hardware defects on the first GEO satellite. The Air Force’s best-case estimate is that the first GEO satellite launch will be delayed an additional year from December 2009 to December 2010. The HEO payloads continue to perform well on-orbit, and according to program officials, they were accepted for specific mission operations in 2009… The SBIRS High program remains at high risk for cost and schedule growth. DCMA is currently projecting over $245 million in cost overrun from the current baseline at contract completion. This amount has more than doubled in the past year and continues to steadily grow… The program’s management reserve… will likely be depleted before the first GEO satellite launches…”

See also the 2009 annual report, and its SBIRS-related 2007 GAO testimony, referenced in “Additional Readings.”

Feb 16/10: Testing. Lockheed Martin announces that the SBIRS GEO-2 satellite has completed its first phase of Baseline Integrated System Test (BIST-1) in Sunnyvale, CA.

With the completion of BIST-1, the team will proceed with final factory work on the satellite and prepare for the final, comprehensive BIST milestone, followed by environmental testing. The spacecraft is planned for launch aboard an Atlas V launch vehicle in 2012. SBIRS GEO-1 is preparing for final integration and test activities that will culminate with final checkout and delivery to the Air Force later in 2010.

Feb 2/10: AIRSS Axed. A Pentagon document [PDF] confirms that 3GIRS/AIRSS is being recommended for cancellation as an “unneeded program.”

Jan 15/10: AIRSS. Reuters reports that AIRSS/ 3GIRS is one of several programs on the chopping block for the FY 2011 budget, based on internal Pentagon documents that were leaked to the news service. With SBIRS GEO late and over-budget, but moving forward, the better-performing 3GIRS program is deemed superfluous.

No AIRSS

Dec 1/09: Testing. A joint U.S. Air Force/Lockheed Martin-led team announces successful thermal vacuum testing of the first SBIRS GEO-1 satellite inside Lockheed Martin’s Dual Entry Large Thermal Altitude (DELTA) chamber. This completes the last of several critical environmental test phases that validate the overall satellite design, quality of workmanship and ability to survive in space. Lockheed Martin.

November 2009: CDR for GEO-3 & 4 payloads. The Critical Design Review for GEO 3 & 4’s infrared payloads is held at Northrop Grumman Electronic Systems in Azusa, CA.

FY 2009

GEO-3 & HEO-3 ordered.

Some assembly required…
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Sept 1/09: EMD. A $99.5 million modified contract to Lockheed Martin for the existing engineering, manufacturing, and development contract for the SBIRS-High Component. The Space Based Infrared Systems Wing at the Los Angeles Air Force Base in CA manages the contract (F04701-95-C-0017, P00583).

July 10/09: GEO-4 & HEO-4 long-lead. A $262.5 million contract to Lockheed Martin for long-lead time parts and materials used to build the 4th SBIRS-High satellite (GEO-4) and the 4th HEO payload (HEO-4). At this time $137.1 million has been committed by the Space Based Infrared Systems Wing at Los Angeles Air Force Base, CA (FA8810-08-C-0002).

These long-lead effort contracts tend to precede a production contract by a year or more, in order to ensure that required components are already on hand and do not delay assembly.

May 29/09: GEO-3 & HEO-3 ordered. A cost-plus-fixed-fee contract of up to $1.49 billion to prime contractor Lockheed Martin Space Systems in Sunnyvale, CA for production of the 3rd SBIRS-High satellite (GEO-3, a geosynchronous orbit design), the 3rd payload (HEO-3, a Highly Elliptical Orbit design), and modification of the SBIRS ground systems to accommodate the operation of 3 payloads at the same time.

So far, $1.1 billion has been obligated under the May 29/09 contract. The Space and Missile Center’s Space Based Infrared Systems Wing in El Segundo, CA manages the SBIRS-High contract (FA8810-08-C-0002). See also Lockheed Martin release on the May 29/09 contract.

GEO-3 & HEO-3

March 31/09: GAO. The US Government Accountability Office auditors release their 2009 Assessments of Selected Weapons Programs. SBIRS – High is one of the programs reviewed, and the report expresses concern about its progress:

“Two of the SBIRS High program’s three critical technologies are mature – a lower level of maturity than last year… the program has experienced design-related problems, especially with the flight software, and more could still emerge… Defense Contract Management Agency (DCMA) assessments indicate that the contractor’s cost and schedule performance are high risks. DCMA is currently projecting a $103 million cost overrun at contract completion, and that amount is growing. Further contractor cost increases and schedule delays are expected…”

Additional Readings Background: Space Vehicles

• USAF, Los Angeles AFB – Factsheet: Infrared Space Systems Directorate

• Lockheed Martin – Space Based Infrared System – High (SBIRS). Was once called SBIRS-High.

• MissileThreat.com – Space-Based Infrared System-High (SBIRS-High)

Official Reports

• GAO (March 12/14, #GAO-14-382T) – Space Acquisitions: Acquisition Management Continues to Improve but Challenges Persist for Current and Future Programs.

• GAO (March 21/12, #GAO-12-563T) – DOD Faces Challenges in Fully Realizing Benefits of Satellite Acquisition Improvements

• GAO (Sept 12/07, #GAO-07-1088R) – Space Based Infrared System High Program and its Alternative. Testimony before the Senate Armed Services Strategic Forces Subcommittee.

News & Views

• DID – 3GIRS: SBIRS Evaluates, Cancels New Technologies. Last updated 2010.

• DID (Jan 17/06) – Lockheed’s SBIRS High Satellite Program Bracing for a Fall.

• Space News, via WayBack (Dec 19/05) – Pentagon Scales Back SBIRS Program.

• DID (Aug 4/05) – GAO Report: Satellite Programs Show Overruns Across the Board.

• DID (April 15/05) – SBIRS Dilemma: Go High or Go Home.

• DID – DSP Satellites: Supporting America’s Early-Warning System.

Saar 5: INS Hanit
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The 1,227t/ 1,350 ton Sa’ar 5 Eilat Class corvettes were built by Northrop Grumman in the 1990s for about $260 million each. It’s a decent performer in a number of roles, from air defense to anti-submarine work, to coastal patrol and special forces support. In 2006, the Israelis went looking for a next-generation vessel with better high-end capabilities. Six years later, Israel had nothing to show for its search. In the meantime, massive natural gas deposits have been discovered within Israel’s coastal waters, adding considerable urgency to their search.

The USA is Israel’s logical supplier, but given Israel’s size and cost requirements, the only American option was the Littoral Combat Ship. Israel pursued that option for several years, conducting studies and trying to get a better sense of feasibility and costs. Their approach would have been very different from the American Freedom Class LCS, removing the swappable “mission modules” and replacing them with a fixed and fully capable set of air defense, anti-ship, and anti-submarine weapons. In the end, however, the project was deemed to be unaffordable. Instead, Israel began negotiating with Germany, and reports now include discussions involving both South Korea, and a local shipyard.

Ship Systems: What is Israel Looking For? The Strategic Situation

Offshore energy
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Israel’s discovery of massive offshore gas reserves in the Tamar and Leviathan fields has the potential to change Israel diplomatic weight, as well as its economy and energy status. Work is already underway in cooperation with Cyprus, and Greece has shifted from hostile to cooperative over the last decade, but Turkey is making hostile noises, and Syrian hostility is assured.

Potential irregular threats to Israeli drilling installations include UAVs, which have already overflown existing rigs on their way into Israeli airspace, or boat operations with divers or depth charges. Rig owners are working with the IDF to counter the irregular threat, via armed teams on each platform and radars networked to Israel’s coastal defenses. They may need to take further steps with RWS emplacements and missiles, given rules that require enemies to close within 1/2 mile before defenders can open fire.

The higher end is more problematic, and isn’t much discussed, but it exists. Hezbollah has already proven its ability to use long-range surface-launched naval missiles, and drilling platforms are ideal targets if they can be reached. Full state-level threats leave Israel open to the threat of supersonic Russian SS-N-26s in Syria’s possession, and add enemy submarines to this picture. Turkey’s purchase of 6 U214s, Iran’s Kilo Class boats, and a possible Egyptian purchase of 2 U209s fitted with modern systems, are changing the local balance. Turkish saber-rattling and Syrian hostility mean that enemy fighters must also be considered, and the rigs will be placed some distance from Israeli quick-reaction fighter launches.

It’s a complex, multi-dimensional problem, and the solution will have to be multi-layered. Defensive systems and sensors on board the rigs themselves, and naval flotillas of smaller ships that offer presence while providing point defense and surface attack punch, are already in place. Heron UAVs are already operating in maritime patrol mode, which offers Israel a persistent aerial surveillance option, but doesn’t help much with response capability at present. Israel could benefit greatly from maritime patrol aircraft with good on-station time, and offensive capabilities that allow them to intervene. Their aged Westwind 1124N Sea Scan business jets don’t fit that bill.

Meanwhile, their naval flotillas need a boost, and acknowledging higher-end threats becomes very consequential if it means that Israel needs high-end wide-area air defense and anti-submarine capabilities on station.

Israel’s Requirements

LCS-I components
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Whatever that solution may be, Israel’s experience with the LCS concept shows where their needs are leading them. From Israel’s point of view, the keys to their original interest in an LCS-I design were threefold.

Flexibility. The 1st key is an open architecture combat system. Israel produces a lot of its own electronics, and the ability to easily integrate their own products into current and future configurations was seen as a huge plus. Lockheed Martin’s VP of Israel Operations, Joshua Shani, meant it when he said that that “participation by the Israeli defense industry will be the cornerstone of [LCS-I’s] success.” The same will be true of any other ship type that Israel adopts.

Wider View. The 2nd key is better sensors. LCS-I negotiations focused on Lockheed Martin’s SPY-1F S-band radar, which also equips Norway’s Fridjhof Nansen Class AEGIS frigates. Discussions surrounding other ships have focused instead on IAI Elta’s locally-developed EL/M-2248 MF-STAR “Adir” S-band active array radar, which has been exported to India for use on their Kolkata Class destroyers, and is being installed as a Sa’ar 5 upgrade. AESA radars are much easier to resize for smaller ships, and IAI ELta’s designs scale all the way down to the EL/M-2258 ALPHA (Advanced Lightweight Phased Array) radar, which is being installed on Israel’s 500t class Sa’ar 4.5 Fast Attack Craft.

AN LCS-I would also have offered far superior underwater sensors. The ability to embark larger helicopters, including the MH-60 Seahawk family or similar naval helicopters, would dramatically boosting Israel’s anti-submarine capabilities. A modern bow sonar, which is present in other ship designs, would add a lot all by itself, especially if the ship’s combat system could integrate that data with towed and/or variable-depth sonars.

SM-2 (top), SM-3

Weapon Improvements. The 3rd key involves a wider weapon fit, especially when it comes to air defense. Adopting the MK41 Vertical Launch System would give Israel inherent flexibility over time to integrate new missiles of all types, in order to handle Israel’s combat scenarios, and address changes in threats and operational requirements.

LCS-I’s high-end armament would have included torpedo tubes, mounts for Harpoon or Gabriel anti-ship missiles, and the contents of the ship’s 16 strike-length vertical launch cells. Those cells would offer Israel the flexibility to include anti-air missiles like the new Israeli Barak-8, the entire range of Raytheon’s Standard family air and missile defense interceptors, compatible anti-ship and precision strike missiles like Lockheed Martin’s LRASM, or even current anti-submarine missiles like VL-ASROC. Local options like IAI’s ANAM/ Gabriel 5 and IMI’s Delilah-SL will also be of interest to the Israelis.

In Israel’s case, a strike-length MK41 VLS system could take on strategic significance. Raytheon’s SM-3 (area defense), SM-2 Block IV, and SM-6 missiles (point defense) can be used to defend against ballistic missile attacks, if paired with a suitable radar. The AN/SPY-1F has never received the signal processor upgrades given to larger and more powerful SPY-1D radars for ballistic missile defense, nor has it ever been tested in that role. Alternatively, the ship could be networked with long-range ground radars like Israel’s “Green Pine.” In either scenario, the SM-3’s range and Israel’s tiny size would allow just 1 ship on station to cover most of Israel. A situation where 2 ships out of 4 are on station at any given time is very plausible, and could provide overlapping point defense ABM coverage. Either option would supplement Israel’s medium range Arrow and short range Patriot PAC-2 GEM systems on land. At present, this is an option rather than a focus, but even the potential for such a vital national mission is a first for the Israeli Navy.

Onboard vehicles add to an Israeli frigates’ punch in a different way. New ships will be expected to embark a flexible USV/UUV mix, with the ability to store and launch Rigid Hull Inflatable Boats (RHIB), mine or sub-hunting hunting UUVs, or surface USVs. Israel’s leading-edge capabilities in USVs would make that capability an immediate and long-term force multiplier.

Israel’s core problem is that a high-end, full featured frigate is going to cost them $600+ million. They want the capabilities, but don’t have the money to buy 3-4 ships at that price. In response, they can choose to scale back their desires, or they can find some way to make a deal.

What Are You Shipping: Vessels & Systems Current State: Israel’s Sa’ar 5 Corvettes

Sa’ar 5 corvettes
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Some have called the 1,227 tonne Eilat Class a better base model for the USA to adopt, as it seeks an affordable Littoral Combat Ship or flotilla asset. The ships were built by Litton-Ingalls Shipbuilding Corporation of Pascagoula, MS (now HII), based on Israeli designs. All 3 ships of class were launched from 1993 – 1994.

Air Defense. Sa’ar 5 corvettes have moderate anti-air capabilities, thanks to IAI Elta ELM-2218S and ELM-2221 GM STGR radars. Twin 32-cell launchers hold short-range Barak-1 surface-air missiles, and the ship has a Mk15 Phalanx 20mm CIWS gun for last-ditch defense. As of 2013, the ships are preparing to swap their Barak-1 systems for the larger Barak-8 missile, whose 70+ km reach will give the Israeli Navy its first area air defense capability.

ASW. Bow-mounted and towed sonars, plus 6x 324mm torpedo tubes for Mark 46 torpedoes, give these corvettes moderate anti-submarine capability. This was quite adequate until the early 2010s. As Turkey has become progressively more hostile, and unstable neighbors like Egypt buy modern submarines, there is some concern that the Eilat Class’ anti-submarine capabilities may not be enough.

Surface Warfare. Surface warfare is addressed well. Harpoon or Gabriel anti-ship missiles can be used against larger ships or land targets, while the Mk15 Phalanx 20mm gun and Typhoon remotely-operated 7.62-30mm gun/missile systems deal with guerrilla craft. The corvette is also capable of launching small special forces boats, or robotic USVs like RAFAEL’s Protector series.

A 76mm Oto Melara naval gun option could be installed in place of the Phalanx. It would offer slightly less air defense capability, in exchange for a longer reach and more punch against fast boats. That upgrade would be compatible with long-range Vulcano ammunition for naval fire support, but Israel has chosen the Phalanx for now.

The Eilat Class’ helicopter hangar can accommodate AS565 Dauphin/Panther, Kaman SH-2F or Sikorsky S-76N helicopters. Israel’s navy flies the AS565, but they haven’t armed them with substantial naval weapons.

Future Option: Lockheed Martin’s LCS-I

LCS-I missions
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The Israelis have a long-standing relationship with Lockheed Martin, and a 2,500-3,000t LCS design with the USA’s swappable mission modules could significantly improve Israel’s ability to conduct anti-submarine warfare and mine neutralization missions.

Unfortunately, the pitifully weak armament of the USA’s LCS ships is inadequate for the Israelis, who need their ships to be able to engage other naval vessels, and to provide their own air defense. Worse, the American design lacks the flexibility to add meaningful weapons in future. As a result, the Israelis took a different approach, eliminating the ship’s swappable mission modules in favor of a much more heavily-armed vessel.

Initial studies were conducted in conjunction with Lockheed Martin, leading to an RFP and even an official $1.9 billion DSCA request for Lockheed Martin’s LCS-I design. That would have made Israel the first LCS export customer. Construction of the LCS-I ships would have occurred at Marinette Marine and Bollinger Shipyards in the United States and American construction allows Israel to buy the ships with American military aid dollars, rather than using its hard-currency budget. Gary Feldman, Lockheed’s business development director international LCS sales, said that detail design could have begun in 2009, with construction starting in 2010.

In the end, however, expected per-ship costs of $700 million or so led the Israelis to back away and look for another solution.

Future Option: HII’s Sa’ar 5B

Northrop Grumman has proposed an enlarged “Sa’ar 5B” corvette with more advanced systems, and Israel has made that task easier by developing their own advanced ship radars and improved missiles. Indeed, the Israelis are implementing a de facto Sa’ar 5B by upgrading existing Eilat Class ships with fixed-plate MF-STAR “Adir” AESA radars, new medium range Barak-8 missiles, and better anti-ship/ land strike missiles.

Northrop Grumman (now HII) has hinted that Sa’ar 5B ships could be built for less than $450 million, using American aid dollars, but Israel initially rejected that option as well. Discussions are rumored to have resumed, but nailing down a firm price will require money up front for extensive design studies. That left Israel looking beyond the USA for their base ship, even as the equipment they wanted in those ships remained fairly constant.

Future Option: Germany, Overall?

MEKO CSL
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In February 2009, Israel switched its interest to ThyssenKrupp Marine Systsems’ MEKO family, which comes in sizes ranging from A100 corvettes to full-size A200 frigates. MEKOs are customized to their destination country, so a German K130 Braunschweig Class is very different than Malaysia’s Kedah Class, even though both begin with the A100 base. As part of that customization, the radar would have been IAI’s Elta’s EL/M-2248 MF-STAR, and many of the other technologies requested for the LCS-I would have applied as well.

Reports are split between a buy of 4 A100 base corvettes to put more ships on station, vs. a purchase of 2 high-end frigates that would be able to focus on advanced anti-submarine and wide-area anti-air warfare.

There was even some talk of making Israel the launch customer for the MEKO CSL, which would have given Israel some of the modularity found in the USA’s LCS class. The Meko CSL is only slightly smaller than the American LCS Freedom Class, at 108m/ 354 ft. long, with a beam of 21 meters and full-load displacement of 2,750 tonnes. Propulsion is by a combined diesel-and-gas (CODAG) water-jet system that cruises at 15 knots and reaches 40. Cruising speed range at would be about is 3,500 nautical miles, with 21 days endurance. The MEKO CSL variant adds improved stealth shapes and measures refined on Sweden’s Visby Class corvettes, and has several modular sections for faster swap-outs. An Israeli MEKO CSL would contain a lot of local content, including IAI Elta’s MF-STAR, the new Barak-8 medium range air defense missile, and Israeli electronic countermeasures systems, among others. The CSL also has a rear mission bay, and could serve as a hub for Israel’s advanced UAVs and robotic naval USV/UUVs.

German negotiations stalled after Germany agreed to provide subsidies for more Dolphin Class submarines, but not for frigates. 2013 Reports indicate that negotiations have resumed.

Asian Quality: The South Korean Option

FFX launch
(click to view larger)

South Korea (ROK) is a global leader in shipbuilding, and their successful naval shipbuilding programs include cruiser-size KDX-III AEGIS destroyers as well as smaller ships like their FFX and FFX II light frigates. The FFX Block II in particular appears to be an advanced small combatant that meets Israel’s size and capability requirements. The 2,500t+ ships will offer electrical power to spare, high-end long range radar capabilities, a 127mm/ 5″ gun with guided shell options and future long-range fire capabilities, a 16-cell vertical launch system, and the ability to embark full-size anti-submarine helicopters.

The South Koreans might be able to produce new frigates at the price and quality level Israel needs, and they’ve become significant buyers of Israeli defense technologies in recent years. Israel wants to keep that relationship going, but KAI’s recent loss of a $1 billion deal for new IAF jet trainers has put a dent in things. South Korea remains interested in other Israeli technologies, including its Iron Dome rocket defense system.

A deal that offset ROK defense purchases with Israeli buys of South Korean FFX Block II ships might make everyone happy, and get the Israeli political support required to move the project ahead. Negotiations are reportedly underway.

Final Option: Don’t Go Big – Go Home

Saar 5 Eilat Class
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Israel’s final option is less ambitious in terms of performance, but more ambitious industrially. It involves a deal with the privatized Israel Shipyards. In exchange for government investment to modernize and expand the shipyard, they would design and build an larger, improved version of existing corvettes. The Sa’ar 5.5 option would be designed to give Israel a locally-built offering that was both exportable and upgradeable, without requiring outside help or approval.

Recent MF-STAR/ Barak-8 upgrades are laying the groundwork for a tested option. The question is whether all of the money required for shipyard modernization, ship design, fabrication in a shipyard stretching its capabilities, and platform testing would make the final product as expensive as higher-end options, while offering comparatively less capability. That could also make the vessels unexportable on price grounds, creating a lose-lose-lose scenario.

Contracts & Key Events 2015 – 2018

 

Barak-8
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August 16/18: Protector of Israeli interests Israel will send its ‘Sons of Sa’ar’ to protect its Mediterranean gas fields and its exclusive economic zone. The Israeli Navy is set to receive four next-generation Sa’ar 6 corvettes between 2019 and 2024. The 300-feet-long warships, which are currently being built in Kiel, Germany, will be packed to the gills with highly sensitive detection equipment — to monitor both the surrounding sea and airspace — as well as offensive weapons and defensive missile interceptors. The ships will be equipped with the ‘Naval Dome’, essentially a navalized version of the Iron Dome, with the Barak-8 missile at its core. The Barak-8, and aims to deliver up to 42 mile of range, thanks to a dual-pulse solid rocket motor whose second “pulse” fires as the missile approaches its target. This ensures that the missile isn’t just coasting in the final stages, giving it more than one chance at a fast, maneuvering target. The missile’s most important feature may be its active seeker. Instead of forcing its ship or land-based radar to “paint”/illuminate its target at all times, the Barak 8 can be left alone once it is close to its target. This is an excellent approach for dealing with saturation attacks using older ship radars, which can track many targets but illuminate just a few. The Barak-8 was developed by IAI in collaboration with Israel’s DDR&D, India’s DRDO (Defense Research and Development Organization), the navies of both countries, Rafael Advanced Defense Systems Ltd., IAI’s ELTA Group and local industries in India.

January 19/18: Upgrades—Testing Israel’s Navy announced that it has successfully tested a new chaff defense system for its Sa’ar 4.5-class missile boats and it is expected that the system will be declared operational in the coming weeks. First to receive the upgrade was the INS Sufa, with testing conducted two months ago off the coast of Haifa. The system includes an algorithm that identifies and classifies any kind of projectile making its way towards the Israeli missile ship, and then programs a unique diversion plan: firing chaff rockets from the front deck and create a “wall” over the water of hundreds of metal wires, which mislead the enemy missile into “thinking” this was the Israeli ship. This helps divert the enemy missile, only a minute or two before it was to hit the Israeli ship.

April 3/17: The Israeli Navy is altering the design of the Sa’ar-6 corvette in order to fit additional Iron Dome interceptors onboard the vessels. By adding a second launcher, each corvette will be able to carry as many as forty Tamir interceptor missiles, allowing vessels to engage an increasing number of disruptive, possibly deadly and inexpensive shore-launched rockets launched by groups such as Lebanon’s Hezbollah. Four Sa’ar-6 ships are currently on order with Germany’s ThyssenKrupp Marine Systems (TKMS); however, the sale is source of a scandal in Israel and are part of an investigation into potential conflicts of interest among those close to Israeli Prime Minister Benjamin Netanyahu.

November 10/16: Israeli navy officials are evaluating fixed-wing extremely short take-off and landing (ESTOL) UAV ideas to eventually deploy on their four new Saar 6 corvettes and existing SAAR 5 missile vessels. The ESTOL UAV will be based on propulsive lift technology that will enable it to take off from a very small platform on the navy ship. A decision will be made on the platform in 2017.

May 12/15: The Israeli Ministry of Defense announced Monday that it has signed a contract for four Sa’ar-class corvettes, manufactured by Germany’s TKMS. Discussions between the two countries over the supply of Littoral Combat Ships to protect Israel’s offshore gas reserves have been in the works since 2009, with the Germans agreeing to a discount in October last year, with the German government further subsidizing the deal, funding approximately a quarter of the contract’s value. The $480 million deal will see TKMS buying $181 million-worth of Israeli-manufactured equipment as offsets. Whilst the Israeli MoD did not announce the precise type of corvette the Israeli Navy will receive, it is likely to be the Blohm Voss-class 130 corvette, with modification to Israeli specifications.

2014

Israel’s offshore strategic situation; Significant Sa’ar 5 improvements underway; Negotiations with Germany.

Oct 19/14: Germany. Ha’aretz reports that Germany has agreed to a discount, and seems set to secure the Israeli contract for its next-generation ships:

“A crisis between Israel and Germany over missile boats required to protect Israel’s offshore gas fields has ended after Berlin agreed to slash [EUR] 300 million (about $382 million) off the cost, officials on both sides said. They are expected to initial an agreement for the boats within weeks.”

Time will tell which boats Israel orders. If they still want 4 ships, a sum of just over $900 million with subsidies included could get them MEKO derivatives along the lines of Germany’s own 1,840t K130 Braunschweig Class corvettes, but with Israeli technology. If they’re only ordering 2 ships, possibilities expand to include base options like the 2,750t MEKO CSL, or a MEKO A200 derivative that compares to Turkey’s own 3,350t Barbaros Class. Sources: Ha’aretz, “Missile boat crisis ends as Germany gives Israel $382 million discount”.

Sept 28/14: RFP & timelines. State Comptroller Judge (ret.) Joseph Shapira published an audit report in March 2014 that said Israel’s gas facilities in the Mediterranean were only partially protected, but constituted a prime target for attacks by terrorist organizations. That has ratcheted urgency a bit higher, but Israel may have to wait for some time before its ships sail out:

“The Ministry has been preparing for a number of years an international tender for the procurement of ship to operate in Israel’s marine economic area, and has done in-depth staff work in the matter. The government decided to procure the ships only in November 2013, and provided a special budget for them. Procurement was suspended in order to provide enough time for negotiations for a deal with a foreign country. Last July, following the prolonging of these processes, the Defense Ministry decided to issue an international tender for procurement of the ships. The tender is currently taking place; the envelopes will be opened next December, and a preliminary answer will be given. The tender will be completed by the end of 2015.”

Add time for integration of Israeli components, construction, outfitting, testing, and training, and operational acceptance before 2018 would be quite a feat. Globes reports that the contract’s scope involves NIS 2 billion (about $550 million) for 4 ships. That won’t get them very much. Sources: Globes, “Israel Navy to wait years for gas rig defense ships”.

May 15/14: Germany. Ha’aretz reports that the proposed deal discussed in December 2013 (q.v. Dec 8/13) appears to have fallen through for now:

“The German government has decided not to give Israel a massive subsidy for the purchase of German missile boats, due to the breakdown in Israeli-Palestinian peace talks, both Israeli and German officials said on Thursday.”

Sources: Ha’aretz, “Germany nixes gunboat subsidy to Israel, citing breakdown of peace talks”.

May 13/14: Sa’ar 5+. Israeli improvements to their existing ships are underway. This matters, because deploying the systems within the Israeli Navy makes Israel much more likely to demand them as part of any future frigate. Fielding a tested upgrade to the Eilat Class also provides added weight to options like the Sa’ar 5B or Sa’ar 5.5, by creating a proven starting point.

A “senior naval source” tells The Jerusalem Post that Israel is upgrading the anti-ship and strike missiles on board its ships, in order to give their Navy medium-range precision strike capability against land targets. They weren’t specific, but IAI has developed an “Advanced Naval Attack Missile” as a successor to existing naval Gabriel missiles. The other likely option is IMI’s “Delilah-SL”; it’s a ship-launched version of the Air Force’s go-to missile for strikes against targets that are heavily defended, or require a high level of human judgement via its “man in the loop” feature.

The article adds that a Sa’ar 5 Eilat Class corvette has already been outfitted with IAI Elta’s MF-STAR S-Band AESA radar and Barak-8 air defense missiles. Adding better strike weapons to that array changes effectively creates a proven “Sa’ar 5B/ 5.5” option. Sources: The Jerusalem Post, “The Israel Navy is quietly enhancing its capabilities for precision, long-range missiles”.

Jan 18/14: Israel Defence reports that Israel is scaling down its naval platform ambitions. They’re reportedly back to a platform around 1,300t, which is about the same size as their Sa’ar 5s, rather than a 2,000t+ platform. They’ll still insist on its ability to carry MF-STAR and the Barak-8, but success won’t entirely solve their problems:

“Originally, the IDF Navy should have initiated the procurement of the new missile frigates in the context of the previous multi-year plan, and funds had been allocated for this purpose as part of that plan, but owing to the cancellation of the LCS option, the process never materialized…. intention of the IDF is to finance the procurement of the new vessels by a dedicated budget allocated by the government outside the framework of the normal defense budget, in order to secure the offshore gas drilling rigs. The procurement plan notwithstanding, the total number of missile frigates in the IDF Navy is expected to decrease during the next five-year period, owing to the obsolescence of the present vessels, some of which are to be decommissioned.”

Sources: Israel Defence, “The Next Missile Frigate of the IDF Navy”.

Jan 8/14: Strategic. Paul Alster & David Andrew Weinberg discuss the difficulties Israel faces in defending its offshore gas resources, and take a critical look at the exploitable reserves and revenue projections. They say flatly that:

“IDF officials concede that they do not have the resources as of now to properly secure the infrastructure at sea.”

They list threats that include UAVs, which have already overflown existing rigs on their way into Israeli airspace; suicide operations with divers, boats or depth charges; and surface-to-surface missiles like the C-802s that have already been used by Hezbollah. Rig owners are working with the IDF to counter the irregular threat, via armed teams on each platform and radars networked to Israel’s coastal defenses. They may need to take further steps with RWS emplacements and missiles, given rules that require enemies to close within 1/2 mile before defenders can open fire. Higher end threats are even more problematic, and aren’t much discussed here, but they exist. It’s a complex, multi-dimensional problem, and the solution will have to be multi-layered.

One apparent error: the authors refer to “two state-of-the-art German-built MEKO class F221 frigates” as Israel’s choice. The F221 is FGS Hessen, a Sachsen Class advanced air warfare destroyer. First off, it isn’t part of the MEKO family, but a separate and more advanced class built in the context of trilateral cooperation between the Netherlands, Germany and Spain. They are top-end multi-role “frigates,” whose size and growth capacity for ballistic missile defense would make them destroyers if Europeans weren’t so averse to the term. It’s a very capable ship, but an unlikely choice. One ship of that class, with modifications, would eat most of Israel’s reported EUR 1 billion budget for 2. Sources: Forbes, “The Daunting Challenge Of Defending Israel’s Multi-Billion Dollar Gas Fields”.

2012 – 2013

 

Sa’ar 5 & Panther
(click to view full)

Dec 16/13: Strategic. Information Dissemination runs an analysis of Israel’s apparent interest in 2 high-end ships, which is a departure from their traditional focus on larger numbers of smaller vessels. The best that can be said for Jacob Stoil’s analysis is that it’s incomplete. He’s correct to say that this is a departure, and that presence matters, but he never looks at the regional changes underway, and the strategic imperatives created by new enemy capabilities and new Israeli needs. Then there are quotes like this one, which assume premises that turn out not to be true:

“Israel clearly does not intend to use naval power to support land operations or develop independent strategic operations from the sea in a serious way. All of their naval procurement and training decisions over the last more than twenty years have made that impossible.”

Sources: Information Dissemination, “Of Destroyers and Doctrine: An Evaluation of Israel’s Decision to Invest in Larger Hulls”.

Dec 8/13: Germany. The newspaper Ha’aretz reports that Israel’s Defense Ministry is expected to ask the Finance Ministry for a ILS 3 billion budget increase (about $855 million/ EUR 624 million) to purchase 4 “missile boats” as a special buy outside the defense budget, for protection of Israel’s huge offshore natural gas fields. At the same time, the German Bild newspaper is reporting a different deal: 2 ships for EUR 1 billion. The Ha’aretz report does add that Israel continues to negotiate with American and South Korean suppliers, leaving the Navy’s plans characteristically unclear.

What is clear is that there’s a big difference between the implications in the Israeli and German reports. EUR 156 million per ship will struggle to buy a ship like the K130 corvette, a surface warfare patrol ship with limited anti-aircraft capabilities, and no anti-submarine capabilities. They could form interesting flotilla dyads with the proposed Multi-role Super-Dvora, but submarine threats are rising in the Mediterranean. At EUR 500 million per ship, on the other hand, Israel would be looking at high-end MEKO Class frigates will a full range of capabilities, which would become the most advanced ships in their navy. The price would be more limited coverage, with just half the number of ships bought for slightly more money. Sources: Die Presse, “Israel konnte deutsche Kriegsschiffe kaufen” | Ha’aretz, “Defense Ministry seeking $853m to buy German missile boats” | AFP, “”Bild”: Deutschland verkauft Israel zwei raketenbestuckte Zerstorer” | N24, “Israel will Raketenschiffe aus Deutschland” (repeats Ha’aretz figures).

Aug 10/12: South Korea. Israel Defense reports that South Korea is interested in Israel’s Iron Dome rocket defense system, and is negotiating for possible offsetting deals involving frigates for Israel.

April 1/12: South Korea? Israel Defense reports that South Korea is offering to build new surface vessels for the Israeli Navy via Hyundai shipyards. South Korean representatives have reportedly visited Israel and met with the Ministry of Defense, and are said to be continuing discussions. The magazine reports that the offered ships had a displacement of just 1,300 tons, the same size as current Sa’ar 5 Eilat Class corvettes, and significantly smaller than South Korea’s new 2,300t FFX Incheon Class frigates. It didn’t say whether that displacement was measured at full load, after Israel radars, weapons, etc. had all been installed.

Israel hasn’t set aside a budget for such vessels in its current plans, but ongoing discoveries of huge offshore oil and gas are changing its assessment of its security needs.

Meanwhile, Israel Shipyards has reportedly proposed an alternative in which government re-investment would help them add hundreds of employees, invest in a new manufacturing layout, and build 2,100 ton “Saar 5.5” light frigates. They would then become an exporter, with the ability to field upgraded versions for Israel later on. The MoD has approached the Treasury about this plan, but it’s reportedly stuck, even as negotiations have stalled with the USA for a Freedom Class LCS derivative, and with Germany for a MEKO frigate derivative.

2009 – 2011

LCS too expensive; Talks center around German MEKO designs, incl. MEKO CSL; Israel may not have the budget to buy the ships it wants – but huge resource finds mean they may have to.

MEKO 200TN
(click to view full)

November 2010: Leviathan. Israel’s giant “Leviathan” offshore natural gas field is discovered. The gas field is located roughly 130 km/ 81 miles west of Haifa, in 1,500 m/ 4,900 ft. of water. Estimated reserves are a stunning 500+ billion cubic meters, or more than 18 trillion cubic feet.

Israel’s navy just became much more important.

Giant offshore gas find

July 25/10: MEKO. Hopes of German government subsidies to finance Israel’s MEKO buy appear to be fading, amidst the country’s tightening climate of austerity. From The Jerusalem Post:

“The [Israeli] Defense Ministry statement came amid reports that Chancellor Angela Merkel’s government had decided to turn down an Israeli request for financial assistance in purchasing the Dolphin-class submarine and new [MEKO frigates]. In another rare statement, the German government, which rarely talks about defense sales, also denied it was holding talks with Israel on subsidizing new naval vessels… Israel had hoped to receive additional subsidies for two Meko-class ships it was interested in purchasing.”

May 18/10: MEKO CSL? Aviation Week reports that Israel may become the launch customer for ThyssenKrupp’s new MEKO CSL. If true, the American Littoral Combat Ship’s price may end up spawning an international export competitor.

The Meko CSL is only slightly smaller than the American LCS Freedom Class, at 108m/ 354 ft. long, with a beam of 21 meters and full-load displacement of 2,750 tonnes. Propulsion is by a combined diesel-and-gas (CODAG) water-jet system that cruises at 15 knots and reaches 40. Cruising speed range at would be about is 3,500 nautical miles, with 21 days endurance. The MEKO CSL variant adds improved stealth shapes and measures refined on Sweden’s Visby Class corvettes, and has several modular sections for faster swap-outs. An Israeli MEKO CSL would also contain a lot of local content, including IAI Elta’s MF-STAR active-array radar, the new Barak-8 medium range air defense missile, and Israeli electronic countermeasures systems, among others. The CSL does have a rear mission bay, and one of its roles would likely be as a hub for Israel’s advanced set of robotic UAVs and naval USV/UUVs.

Jan 18/10: MEKO. Defense News reports that Germany and Israel are in talks concerning a $1.45 billion naval deal that would add 1 Dolphin Class submarine, and 2 MEKO-derived frigates as the beginning of Israel’s next-generation frigate program. Current reports do not see a January 2010 agreement as likely, and Defense News claims that Israel is asking Germany to pay for 33% of the cost as a German industrial stimulus program, just as it did with Israel’s previous 2-sub order.

The MEKO ships would be Israel’s alternative to a very modified version of Lockheed Martin’s Littoral Combat Ship design, which Israel rejected due to its expected $700+ million cost. Even so, American components in the total naval package could reach up to $200 million. This is important because Israel can use US military aid dollars to buy them, instead of hard currency.

Nov 25/09: German MEKOs? Reuters reports on negotiations between TKMS and Israel to buy up to 8 next-generation MEKO ships.

“Built at ThyssenKrupp’s (TKAG.DE) Blohm+Voss shipyards in Hamburg, the Meko costs around $300 million but Israel wants the German government to underwrite the sale. An official involved in the talks said Israel sought a discount of 20 to 30 percent. That would help the Meko outprice the Littoral Combat Ship (LCS)… An Israeli official said despite the fact that U.S. defence grants would significantly defray the estimated $460 to $600 million cost of the LCS, the Meko topped the wish list. “We want to close a deal by the end of the year. Now it comes down to financing issues with the Germans,” he said.”

Previous reports placed the LCS-I cost closer to $650-700 million. As was the case with the LCS-I, Israel is looking to incorporate a range of Israeli technologies and weapons into the frigates.

Oct 15/09: TKMS + UAE. Blohm + Voss parent firm, ThyssenKrupp Marine Systems, sells an 80% share of all Blohm + Voss groups to the United Arab Emirates’ firm Abu Dhabi MAR, and makes future naval construction a 50/50 joint venture. It remains to be seen whether this will affect Israeli negotiations to use Blohm + Voss’ MEKO designs as the base for its future frigate.

June 29-July 6/09: USA Out. Multiple sources report that Israel is abandoning the LCS-I design, owing to its high costs. Israeli estimates reportedly put the price of an LCS-I at over $600 million, a reasonable figure given the $650-700 million cost of the first 2 American ships, and LCS-I’s extensive Israeli equipment upgrades. Arutz Sheva:

“As much as we sought commonality with the U.S. Navy, it became much, much more expensive than planned,” a naval source said. “At the end of the day, we had no choice but to face that fact that, for us, it was unaffordable.”

Surprisingly, Israel also turned down a 2,300 ton Sa’ar 5.5/5B option from original Eilat class builder Northrop Grumman, owing to expected costs of about $450 million. Instead, Israel is reportedly looking at expanding cooperation with ThyssenKrupp Marine Systems (TKMS), whose HDW subsidiary builds Israel’s Dolphin subs. The idea is to build an advanced, stretched version of Blohm + Voss’ 2,200 ton MEKO A-100 corvette. The ship would add Mk 41 VLS cells, IAI’s Elta’s EL/M-2248 MF-STAR “Adir” active array radar, and other Israeli equipment. The Israelis reportedly believe they would be able to field such a capable ship for around $300 million, and that they can build it locally as a joint military/economic stimulus project. One source told Arutz Sheva (INN) that “We believe a strong case can be made for making this into a national project that fosters self sufficiency and provides all the economic benefits that come with creating a military shipbuilding industry.”

TKMS would be the main design partner, IAI looks set to step into the role of overall systems integrator, and the likely shipbuilder would be Israel Shipyards in Haifa. Israel Shipyards have mostly focused on much smaller fast attack boats, but were also responsible for local integration of the Sa’ar 5 corvettes.

This version of Israel’s next-generation ship project will face 2 main challenges. One is a technical/ engineering challenge. The other is financial.

As one source told the Jerusalem Post: “The challenge will be to make a relatively small ship large enough to carry everything we need, including the radar system.” Given that the systems Israel wants usually equip 4,000+ ton ships, that challenge should not be minimized. TKMS’ Meko 200, in service with the Turkish and South African navies, does offer a 3,850 ton option, and the Israeli Navy is reportedly preparing to issue a design contract to IAI and TKMS subsidiary Blohm+Voss, in order to sort out their technical options.

The financial challenge will be equally formidable. Both LCS-I and a Sa’ar 5.5 design could be purchased with American military aid dollars, which must be spent in America. Those agreements have provisions that allow up to 26% of that aid to be spent in Israel, but those funds are already committed to projects like an extended-range Barak anti-aircraft missile, IAI Elta’s MF-STAR active array radar, and other priority projects. There are 2 possible workarounds for this, and they are not mutually exclusive. One involves financing from other ministries beyond defense, as an industrial project that would provide employment, expand Israeli shipbuilding capabilities, and might even create an exportable platform if the right agreement is struck with TKMS. The second workaround involves using American aid dollars to cover some elements, like steel, American production of the Meko’s MTU1168 diesel engine by General Dynamics, etc., in order to reduce the hard currency price. That would help the project get approved, but it comes with a cost of its own – it would force the Israelis to labor under America’s cumbersome ITAR export approval laws whenever they or TKMS wished to sell the design abroad.

If those conundrums cannot be resolved at an acceptable cost, a 3rd option may exist. Defense News adds that Israel might have driven down the Sa’ar 5.5’s price by $100 million if it had paid for a contract design/detail design process, and that option may return depending on how efforts with ThyssenKrupp Marine Systems progress:

“When Northrop Grumman makes a fixed-price offer, it’s the result of an organized and serious process that allows the company to honor all of its commitments,” a company representative said. “Without conducting a contract design – which eliminates most of the uncertainties that drive up price – NG couldn’t offer the unit costs we all believed we could have delivered to the Israel Navy.”

Sources: Arutz Sheva | Jerusalem Post | Defense News | Jane’s.

LCS-I out; No NGC Sa’ar 5B either

Feb 12/09: Industrial. The director of naval procurement at the Israeli Ministry of Defence’s purchasing mission in New York informs U.S. parties that a change in plans toward a different class of locally-built ships may be in the cards:

“In the event this option turns out to be more suitable both in terms of our operational and budgetary requirements, the [multimission ships] will be built in Israel.”

Source: Defense News June 2009 report.

Feb 1/09: LCS-I. The Jerusalem Post reports that OC Navy Adm. Elazar Marom has dispatched a number of officers to the United States to sail on Lockheed Martin’s Freedom [LCS 1] and test its capabilities. The report adds:

“In addition to reviewing the LCS – whose price has soared over the past year and now reportedly reaches $500 million – the navy is also considering downgrading its procurement plans and purchasing more Sa’ar 5-class missile ships… “There are a number of possibilities and they are under review,” one source said. “There are other possibilities such as more Sa’ar 5s, an upgraded Sa’ar 5 that would be called Sa’ar 5.5, or to wait for the LCS’s price to go down.”

January 2009: Tamar. Noble Energy announces that exploratory drilling has found an offshore gas field about 80 km west of Haifa, in 1,700m / 5,600 ft. of water. The field is called Tamar.

Eventual estimates for the area are a bit of a shock to the traditionally resource-poor Israelis: 200 billion cubic meters / 7.1 trillion cubic feet of natural gas.

Giant offshore gas find

2006 – 2008

From studies to a formal LCS-I request.

(click to view full)

July 15/08: LCS-I. The US Defense Security Cooperation Agency announced [PDF] Israel’s official request for up to 4 Littoral Combat Ships (LCS-I variant), including the hull, and all mechanical and electrical functions. The ships will also include design and integration services, hardware and software, spare and repair parts, test and tool sets, personnel training and equipment, publications, U.S. Government and contractor engineering and logistics personnel services, and other related elements of logistics support. The estimated cost is $1.9 billion.

Each ship will be equipped with:

• 2 MK-41 Vertical Launch Systems, with 8 launch cells for each system. This would allow the ship to hold and fire up to 16 SM-2/3 air defense missiles, or up to 64 RIM-162 Evolved Sea Sparrow Missiles.
  
• 1 Enhanced Harpoon Launching System with missile launchers. Harpoon is an anti-ship missile, but the latest versions can also be used to hit land targets.
  
• 1 Phalanx Close-In-Weapon System, Block 1A. This is surprising, as Block 1B adds important capabilities against the small boats that remain a concern for Israel. Israel is likely to bolt on other gun systems like RAFAEL’s Typhoon in order to cover that threat, but Israeli systems do not need to be specified in the DSCA announcement.
  
• 2 MK-32 triple-launcher Surface Vessel Torpedo Tubes, which handle lightweight torpedoes and launch them from on deck using pressurized air.
  
• Communications and Sensors, including Link 16.
  
• The same COMBATSS-21 Combat system used in American LCS designs.
  
• The smaller AN/SPY-1F (V) AEGIS radar, which is also used on Norway’s Nansen Class frigates. SPY-1F radars lack ballistic missile defense capabilities, but could be networked with other radars like Israel’s “Green Pine.”
  
• A MK-99 Fire Control System; or the Ship Self-Defense System (SSDS) now being installed on American Carriers, LHA/LHD ships, San Antonio Class LPDs, etc.

The principal contractors will be:

• Lockheed Martin Maritime Systems and Sensors in Moorestown, NJ and Eagan, MN (LCS-I, SPY-1F radar, COMBATSS-21, Mk-41)
  
• General Dynamics Armament Systems in Burlington, VT (AEGIS illuminator, 20mm gun for Phalanx)
  
• Raytheon Company, Equipment Division in Andover, MA and Integrated Defense Systems in Waltham, MA (Phalanx, SSDS)

The DSCA announcement says that the Israeli Navy will have no difficulty integrating these ships into its Naval forces, adding that this proposed sale will not require the assignment of any U.S. Government or contractor representatives to the Israel.

LCS-I DSCA request

Feb 6/08: LCS-I. The Jerusalem Post:

“Looking to upgrade its sea-based capabilities, the Israel Navy has submitted a Request for Proposal (RFP) to the United States Navy for a new missile ship currently under development by Lockheed Martin Corp. The Defense Ministry said that the navy expects to receive a reply by April.”

The report added a final caveat, but it doesn’t mean as much as it seems when set against a detailed ship design study, and accompanying industrial arrangements for an extensive array of Israeli equipment on board. That prior work and set of partnerships creates a strong pull toward the Team Lockheed design – one that will not be lightly broken:

“While the navy has filed the RFP, defense officials said it was still not certain whether Israel would purchase the LCS from Lockheed Martin. As part of its multi-year plan finalized in September, the IDF decided to purchase two new ships, but did not state from which company.”

September 2007: LCS-I. NAVSEA asks Lockheed Martin to conduct a 9-month, $2.5 million study of combat system integration for an Israeli LCS-I configuration.

Systems that must be compatible with the combat system reportedly include Lockheed’s AEGIS SPY-1F radar and the Israeli Elta EL/M-2248 Adir radar, RAFAEL’s Typhoon remotely-operated gun/missile systems, Raytheon’s Standard SM-2 surface-to-air missile, and Israel Aerospace Industries’ Barak 1 and 8 anti-air missile systems. A Nov 12/07 Lockheed Martin release adds that:

“During the nine-month combat system configuration phase, Lockheed Martin will examine the combat system performance of LCS-I using two different radar options: the advanced radar under development by Israeli Aircraft Industries (IAI) and Lockheed Martin’s SPY-1F radar. The team will examine the performance of these two radar options using the COMBATSS-21 combat management system integrated with the Israeli Navy Command and Control (IC2) system and develop the technical architecture, high level specifications and estimated costs to integrate COMBATSS-21 with IC2 and multiple Israeli and U.S. sensor and weapon systems including the MK 41 Vertical Launch System (VLS)… Lockheed Martin is currently partnered with Rafael Armament Systems, Elbit Systems and Ness on LCS-I.”

Combat system study

April 10/06: LCS-I. Lockheed Martin announces a $5.2 million NAVSEA study studied Team Lockheed’s LCS hull, mechanical, and engineering systems’ ability to accommodate the systems and weapons the Israelis want, while avoiding the need for major redesign of the USA’s basic configuration.

The final answer was that it could, with some obvious modifications to accommodate better radars and vertical launch systems for missiles.

Freedom Class LCS study

Additional Readings & Sources Background: Israeli Sa’ar Vessels

• Israeli Weapons – Eilat Class Saar 5 multi-mission corvettes. Built by what is now Huntington Ingalls in the USA. Currently being refitted with the MF-STAR AESA radar, Barak-8 medium-range air defense missiles, and improved anti-ship/ land strike missiles.

• Naval Technology – Eilat Class Sa’ar 5 Multi-Mission Corvettes, Israel.

• Israeli Shipyards – SAAR Class Fast-Attack Vessel. The Sa’ar 4 and 4.5, which max. out at 500t, plus an abbreviated description of the the 800t SAAR S-72. They didn’t build the Sa’ar 5s, but are an option to build a “Sa’ar 5.5” design if Israel goes that route.

• Defense Update – Israel Shipyards Introduces the SAAR 72 Mini-Corvette Design. The 800t design sits somewhere between the existing Sa’ar 4.5 and Sa’ar 5 corvettes. From May 16/13.

• Israeli Weapons – Sa’ar 4.5. Currently being refitted with improved IAI ELM-2258 APLHA radars.

Background: Other Ships

• DID – The USA’s New Littoral Combat Ships (LCS).

• ThyssenKrupp Marine Systems – Blohm+Voss Class 130 Corvette. Based on the MEKO 100, displacement 1,840t. Mostly surface warfare & point air defense. They carry 2 small heli-UAVs in a small hangar on board, and can accommodate medium helicopters on the deck.

• Naval Technology – K130 Braunschweig Class Corvette, Germany. Germany’s 5th and final ship entered service in March 2013.

• ThyssenKrupp Marine Systems – Blohm+Voss MEKO® A-200 Class Frigate.

• Naval Technology – MEKO A Class Combat Ship Family, Germany.

• ThyssenKrupp Marine Systems – Blohm+Voss Class MEKO® CSL Light Frigate. Modular design with a payload bay.

• DID – Korea’s New Coastal Frigates: the FFX Incheon Class. About 2,300t full displacement. Hyundai and Daewoo can go much bigger, of course, all the way up to their 4,800t KDX-II and 10,000+ tonne KDX-III destroyers that serve with the ROKN. They’ll also be working on an FFX Batch II class that’s expected to be larger, with an upgraded radar and Mk.41 VLS cells.

Background: Ship Systems

• IAI Elta – ELM-2248 MF-STAR : MULTI-FUNCTION Surveillance and Threat Alert Radar. Has up to 4 fixed active array S-band tiles, with multiple digital beamforming capability. Each tile containing 16 Gallium Arsenide transmit/receive modules. A typical 3×3 m array weighs approximately 1,500 kg, and total weight below decks is about 900 kg for onboard equipment in 2 processing and 4 power supply cabinets. Liquid cooling is used.

• Defense Update – EL/M-2248 MF-STAR Naval Multi-Mission Radar. also known as “Adir,” and being fitted to Sa’ar 5 corvettes as part of a current upgrade.

• IAI – ELM-2258 ALPHA: Advanced Lightweight Phased Array Naval Radar. Significantly smaller than MF-STAR, uses a single rotating face. An upgrade for Sa’ar 4.5 FACs.

• Wikipedia – Gabriel (missile). Israel currently fields the Mk.IV (200 km range), and they’ve exported successive versions around the world.

• IAI – Advanced Naval Attack Missile. Effectively, the Gabriel Mk.V, but different enough to merit its own designation.

• IMI – Delilah-SL. The EO-guided Delilah is the IAF’s go-to missile for attacks against heavily defended targets, or targets that demand a high level of human judgement via a “man in the loop” feature. This ship-launched variant offers a 250 km range.

• IAI – Barak-1 Ship Point Defense System.

• DID – India & Israel’s Barak-8 SAM Development Project(s). Barak-8 is already being retrofitted to the Sa’ar 5 Eilat Class, along with an MF-STAR radar.

News and Views

• Forbes (Jan 8/14) – The Daunting Challenge Of Defending Israel’s Multi-Billion Dollar Gas Fields.

• Information Dissemination (Dec 16/13) – Of Destroyers and Doctrine: An Evaluation of Israel’s Decision to Invest in Larger Hulls.

• Defense Update (Oct 14/12) – Israel Navy to Modernize Hetz Class Missile Boats with a New Radar. The Sa’ar 4.5 will get the EL/M-2258 ALPHA S-Band, electronically-steered, software-defined radar. It uses a number of MF-STAR technologies, but is adapted for small ships.

• Ha’aretz (July 9/12) – Israel Navy demands NIS 3 billion for protection of gas rigs.

• Defense Update (January 2010) – Israel Turns to Germany for Naval Stealth Ships. Israel switches gears. Report is focused on the MEKO, incl. the MEKO CSL.

• Defense News (Oct 22/07) – Lockheed Moves Forward With USN’s LCS.

• Jane’s Defence Weekly (Oct 11/07) – Reports that “[The Lockheed Martin LCS-I] design appears to be the most suitable for our needs,” a senior IN source told Jane’s…”

Americas

The Air Force is quickly moving ahead with its hypersonic missile program. The service is contracting Lockheed Martin’s Missiles and Fire Control division to move ahead with the critical design review and relevant testing of its air-launched rapid response weapon (ARRW). The undefinitized contract has a value of $480 million. The ARRW is one of two current US hypersonic missile research programs. Once completed the ARRW will be able to travel at least five times the speed of sound. Current information suggests that the missile will achieve hypersonic speeds by the use of scramjets, which use an aircraft’s forward motion to shovel air at supersonic speeds into the engine, causing thrust. The hypersonic scramjet will be carried aloft by a large aircraft as a wing-mounted missile. Once the parent aircraft is going fast enough that the scramjet will ignite, it launches the missile. Hypersonic weapons will likely be engineered as “kinetic energy” strike weapons, meaning they will not use explosives but rather rely upon sheer speed and the force of impact to destroy targets. The Air Force is currently investing over one billion dollars to aggressively expedite the ARRW’s and HACSW’s development schedule. Work will be performed at Lockheed’s facility in Orlando, Florida and is expected to be completed by November 30th, 2021.

The Navy’s Blue Angels squadron is set to receive new wings. Boeing is being awarded with a firm-fixed-price delivery order valued at $17 million. The contract provides for necessary work needed to convert nine F/A-18E and two F/A-18F aircraft into a Blue Angel configuration. The Blue Angels were formed in 1946 following WWII as a public relations and recruiting tool to inspire airshow crowds to pursue excellence in all of their endeavors and as a recruiting asset to attract potential candidates to join the US Navy. Work is likely to include removing the jet’s 20mm Vulcan cannon, enhancing the the aircraft’s fuel systems for prolonged inverted flight, adding an oil tank and extra plumbing to the Super Hornet’s exhaust for the smoke system, as well as other smaller changes. Flight controls on the Blue Angels’ F/A-18’s are usually modified to make formation and inverted flight easier. The flight control stick between the pilots’ legs uses a spring to exert 40-pounds of forward bias force meaning the pilot constantly exerts slight rearward pressure compared to a normal Hornet to maintain level flight. Work will be performed at Boeing’s facility in St. Louis, Missouri and is scheduled for completion by December, 2021.

Ceradyne is being tapped to support the US Army’s newly developed lightweight helmet. The $34.6 million contract modification provides for the incorporation of additional systems and components in the Integrated Head Protection System (IHPS). The helmet is capable of providing a larger area of protection for the head and face. The new head protection system is also equipped with accessories, such as mandibles, visors, night vision goggle attachment devices, rails and a modular ballistic appliqué that provides protection against fragmentation, 9mm and rifle fire. The Army intends to field 7,000 units of IHPS to separate brigades during the FY2018 before moving to full-rate production. Work will be performed at the company’s location in Irvine, California.

The US Army is procuring a number of Inflatable Satellite Antenna (ISA) systems. GATR Technologies will provide the service with the systems, kits, spares and associated training under this $522,4 million contract modification. GATR’s ground-mounted antennas look like giant beach balls with tie-downs to point them in the right direction. The inflatable satellite terminal reduces the tactical footprint of large-aperture satellite communications systems and enables portable high-bandwidth communications in remote areas. The ISA is designed for military ground use in remote areas with harsh weather and where the movement and installation of large standard rigid satellite antennas is challenging. The main advantage of the terminal is portability, the company noted. When the ball is deflated, it rolls up (with the dish inside) like a sleeping bag and weighs 18 pounds. The antenna bag, blower, hoses and plates fit in one transportable case. The modification brings the contract’s total face value to more than $960 million. Work locations and funding will be determined with each order. The contract has an estimated completion date of September 26th, 2023.

Middle East & Africa

Iranian media reports that the Islamic Republic has a new anti-ship ballistic missile in its arsenal. Dubbed Fateh Mobin, the new missile is based on the existing Fateh 110 missile design. The Mobin was recently tested by Islamic Revolutionary Guard Corps. The missile flew more than 100 miles on a flight path over the strait to a test range in the Iranian desert. The Fateh 110’s development started in 1995 and was first tested in 2001. According to CSIS the Fateh 110 already comes in two anti-ship variants. In 2014 the IRGC displayed the Hormuz-1 and Hormuz-2 equipped with anti-radiation capabilities for attacking radar systems. Another anti-ship variant of the Fateh is the Khalij Fars, which does have the electro-optical seeker required to improve accuracy enough to potentially hit a moving target. Defense Minister Gen. Hatami recently underlined Iran’s determination to further enhance its defense power in all fields “despite sanctions, pressures and psychological war by enemies”. A message clearly directed towards an US and regional audience.

Turkey may lose a $1.5 billion defense deal as the diplomatic crisis with the US escalates. The contract in question is Pakistan’s planned acquisition of 30 Turkish-made T129 ATAK helicopter gunships. The T129 is produced by Turkish Aerospace Industries but partly uses US-made engine parts for which TAI will need US export licenses. If those licenses are not issued Turkey cannot legally export the gunships to Pakistan. The helicopter is powered by two CTS800-4A turboshaft engines that are manufactured by LHTEC, a joint venture between the American firm Honeywell and the British company Rolls-Royce. Turkey and Pakistan signed a deal July 13th for 30 T129 ATAK helicopter gunships.

Europe

The German Navy plans to equip its K130 corvettes with the Skeldar V-200 rotary-wing unmanned aerial vehicle (UAV). The Navy is procuring two V-200s and will start to operate them by the end of 2019. The Skeldar is developed by Saab, is capable of being launched from the deck of any vessel, and delivers real-time intelligence and surveillance. The Skeldar V-200’s major mission capabilities include surveillance, reconnaissance, target attainment and transfer of target data to strike platforms. The typical payload configuration includes EO/IR gimbals, a laser pointer, laser range finder (LRF), synthetic aperture radar (SAR), ground moving target indicator (GMTI), electronic warfare, AIS transponder, searchlight, megaphone and cargo hook. The German Navy has its K130s deployed to a variety of naval missions where an increased reconnaissance capability is direly needed. During combat operations the V-200 will assist in guiding ship-launched RBS15 Mk3 missiles to their target.

Asia-Pacific

Vietnam is exporting three radar systems to Laos. The VRS-2DM radar system is produced by Viettel and provides information to air-defense troops and can perform airspace and flight management tasks. Laos purchased the system as means to boost its combat capability.

The government of Australia is set to receive a new engine for one of its P-8 Poseidon aircraft at a cost of $12.8 million. The Poseidon is powered by a CFM56-7B27AE engine is produced by CFM International belongs to the family of high-bypass turbofan aircraft engines. The CFM56-7 first ran on 21 April 1995 and has a takeoff thrust range of 19,500–27,300lb. It powers commercial Next-Generation 737s and military versions of the airframe including the AWACS and C-40 Clipper. Work will be performed at multiple international locations, including Villaroche, France and Durham, North Carolina. Delivery of the engine is scheduled for September 2019.

Today’s Video

Watch: Iran unveils ‘Mobin’ missile