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Americas

• The Air Force is reportedly set to award a contract for the next-generation Long Range Strike Bomber “within one to two months”. The competition between Northrop Grumman and a Lockheed Martin/Boeing team will lead to a program valued at between $44 and $55 billion, with this equating to between 80 and 100 bombers. The LRS-B program will realign from from Air Combat Command to Air Force Global Strike Command from October.

• General Electric and Pratt & Whitney were both awarded $105 million modifications on Friday to cover a potential contract award for the Adaptive Engine Technology Development order, with the Air Force also reportedly looking to open future competition for F-35 upgrades.

• The Navy announced Friday that it has achieved Initial Operating Capability with the Block II Rolling Airframe Missile aboard the USS Arlington (LPD 24). The joint program with Germany was recently included as part of a $1.6 billion overhaul package by the US Navy intended to provide improved protection to carriers and amphibious ships.

• In other Navy news, the Electromagnetic Aircraft Launch System (EMALS) has been successfully “no-load” tested on CVN-78. The system – manufactured by General Atomics – uses electricity as a propulsion system, as opposed to current steam-based catapults. The new system will offer improved performance, reduced stress on aircraft and other benefits. EMALS will be complemented by the Advanced Arresting Gear (AAG) – also manufactured by General Atomics – with this system seeing schedule delays and reportedly likely to miss its March 31st deadline next year.

• On Friday, 21 firms were awarded a $7.9 billion IDIQ contract for Network-Centric Solutions-2 (NETCENTS-2) network operations and infrastructure solutions, with an initial period of 3 years.

• Peru and Russia are reportedly in talks regarding potential modernization of the South American state’s approximately 200 T-55 main battle tanks. With previous reports suggesting that the Russians would be willing to sell the more advanced T-90S to the Peruvians, the reports regarding the T-55s also stated that Peru is not considering any new procurement contracts.

Europe

• The German Defense Ministry has reportedly selected the MEADS system as a replacement for its existing Patriots. The Defense Ministry has neither confirmed nor denied the reports circulating in German media, with an official decision expected to be announced in June. MEADS – Medium Extended Air Defense System – has been jointly developed by Lockheed Martin and MBDA, with funding received from three partner nations; the US, Germany and Italy. If the system has been selected over competitor Raytheon – who are offering upgrades to the in-service Patriots – then this would be a much-needed boost to the MEADS consortium, which urgently needs a buyer having failed to impress the US Army owing to cost and schedule overruns.

• Latvia has installed a NATO air defense system to improve air surveillance over the Baltic states. The TPS-77, manufactured by Lockheed Martin, is a mobile Active Electronically Scanned Array (AESA), with the new system set to complement two existing systems currently in operation in order to monitor the entirety of Latvia’s eastern border. Those were ordered in 2007.

• Turkey is reportedly looking to equip its domestically-produced UAVs with indigenous Bozok missiles, set for serial production by Tubitak SAGE. The Turkish Aerospace Industries Anka UAV is the most likely candidate for the new missiles.

Asia

• India’s fourth Komrota-class ASW corvette is set to be launched on Tuesday, with the INS Kavaratti the last of the Indian Navy’s Project 28 ships. The ships – built by Garden Reach Ship Builders and Engineers (GRSE) – have been designed to succeed the Kora-class. Russia also recently unveiled a new destroyer design – the Project 23560E Shkval destroyer.

Today’s Video

• The Anka UAV in action…

MEADS: air view
(click to view full)

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. MBDA’s SAMP/T project would be its main competitor, but MEADS aims to offer improved mobility and wider compatibility with other air defense systems, in order to create a linchpin for its customers’ next-generation air defense arrays.

The German government finally gave their clearance in April 2005, and in June 2005 MEADS International (MI) formally signed a contract worth approximately $3.4 billion to design and develop the tri-national MEADS system. In February 2011, however, events began to signal the likely end of the program. Since then, the US Administration has been battling with Congress where there is little support for a continued American participation.

MEADS: The System MEADS concept
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MEADS was intended to match up against foreseeable enemy aircraft over the next 30 years, as well as stealthier and/or supersonic cruise missiles, UAVs, and even ballistic missiles. The system will incorporate its own 3-radar set, along with networked communications for use as either a stand-alone system, or a component of larger air defense clusters that include other missiles.

The core vehicle for the US MEADS program appears to be the USA’s FMTV 6×6 trucks. These 5-ton capacity vehicles will carry the radars, containerized Tactical Operations Center (TOC), launcher, and reload packs. FMTVs can be carried in C-130 aircraft, and MEADS International has already tested some of the prototype systems for fit. Italian and German test vehicles have used their own national truck brands, and the Germans in particular appear to leaning to larger vehicles.

During the MEADS SDD phase, MEADS International was asked finalize designs for equipment and complete their integration into the system. The system’s 6 major equipment items are:

US TOC, ItAF launcher
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[1] Netted and distributed Battle Management, Command, Control, Communications, Computers, and Intelligence (BMC4I) Tactical Operations Center (TOC). The 3-workstation TOC shelter is a joint project of EADS, Lockheed Martin, and MBDA. It can be carried by 3 different trucks to meet national preferences, and adapter systems could probably be built to widen the number of compatible wheeled and/or tracked vehicles.

[2] Two 360-degree, Multifunction Fire Control Radars (MFCRs). The X-band MFCR employs active phased array technology, using transmit/receive modules developed in Germany. It also incorporates advanced identification-friend-or-foe (IFF) sensors with improved capabilities. As a point of comparison, the G-band AN/MPQ-65 radar used in the PATRIOT Config-3 system has a 120 degree field for horizontal coverage, narrowing to 90 degrees for engagement. Raytheon has begun studies toward a rotating 360-degree version, but MEADS has one now.

[3] Surveillance radar. These “Low Frequency Sensor” UHF radars will have self-diagnostic capability, to ease the extra maintenance load caused by replacing 1 MPQ-53/65 Patriot radar with 3 improved MEADS radars.

[4] Missile Segment Enhancement (MSE) certified missile round based on the current PAC-3 missile, augmented by Missile Segment Enhancement (MSE) technologies that will give it greater range, and possibly greater performance.

[5] Light weight launcher, mounted on a truck with a built-in winch to auto-load the missile packs.

[6] Reloader truck.

MEADS components
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Lockheed Martin’s PAC-3 MSE is still a hit-to-kill missile, with upgraded batteries, an 11-inch dual-pulse solid fuel rocket motor, a thermally hardened front end, a enlarged fins and better control surfaces to improve maneuverability, upgraded guidance software. The desired end result is a longer range missile that is more agile, and able to counter both tactical ballistic missiles and more conventional threats. It’s also being designed to cost less than existing PAC-3 missiles, and time will tell if it succeeds.

The missile has survived MEADS’ demise, and US Army budget documents indicate that production will begin in FY 2014. It will be added to existing PATRIOT batteries, and current plans call for 1,680 missiles to be produced.

MEADS: Mobility and Employment Harpy UAV’s dive attack
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As attack drones like Israel’s anti-radar Harpy long-loiter UAV, loitering precision missiles, and improved anti-radar missiles like the Italo-American AGM-88E AARGM come into service, air defense assets will also find themselves needing to use “switch-on/ switch-off” and “shoot and scoot” tactics to survive. This was certainly the pattern used by one successful battery in Serbia which not only survived the NATO air campaign, but used its 1970s-era SA-3 missiles to down an American F-117 stealth fighter. The idea is to have MEADS elements or other air defense systems “plug and fight,” joining in or breaking off from a common-picture air defense network as needed, in order to protect or reposition themselves.

Existing Patriot systems have some mobility to provide this kind of self-protection, but they aren’t really designed to maneuver with attacking US forces. Indeed, during Operation Iraqi Freedom in 2003, the Patriot system’s heavy HEMTT trucks and other large equipment found themselves hard-pressed to keep up with the US military’s rate of advance.

Early C-130 test
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MEADS would be better than that, but it isn’t really a forward air defense system for mobile units. It was originally envisioned to be transportable by C-130 or equivalent medium transport aircraft, able to roll off the transport and begin operations very shortly thereafter. At present, most elements are designed to be compatible with the USA’s 5-ton capacity FMTV 6×6 trucks; depending on their final weight, FMTV-mounted MEADS components may even be transportable as underslung loads on medium-heavy helicopters like the CH-47 Chinook, CH-53 Super Stallion, and the notional Franco-German Heavy-Lift Helicopter. Even the container-sized Tactical Operations Center (TOC) is being designed to be able to drive on and drive off the C-130, or serve as an underslung load on CH-47/ CH-53 class helicopters.

Cutting set-up time and adding air-transportability should help MEADS improve on the Patriot system’s deployability into theater, and mobility within it. Even so, MEADS will retain mobility limitations of its own, due to the terrain limits inherent in all trucks. German forces will have options like their short-range LeFlaSys armored vehicle system for full front-line mobility, while US forward units on the move may end up relying on equally short range Stinger-based systems like hand-held FIM-92 missiles, Avenger Hummers, LAV-II ADs, or Bradley M6 Linebackers for short-range air defense. Note that a number of Bradley M6 and Hummer Avenger systems have been converted out of the air defense role, weakening US forward-based air defense options.

MEADS is designed to operate behind those forward defense systems, and its broader goal was an open architecture system that can plug into broader defensive systems, working with shorter-range systems like the USA’s SLAMRAAM/CLAWS vehicle-mounted AMRAAMs, Italy’s Spada 2000, etc.; with wider surveillance systems like the JLENS tethered blimps; and with longer range theater-defense systems like the Lockheed/ Raytheon/ Northrop-Grumman THAAD, IAI/Boeing’s Arrow-2, or even Raytheon’s naval SM-3 missiles, connected to a common view of the battlefield via Co-operative Engagement Capability. That open architecture’s first big test, will be much simpler, however: integrating a vertical launch version of the European IRIS-T short-range air-to-air missile alongside the longer-range, radar-guided PAC-3 MSE.

Plug-and-Fight
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MEADS International claims that this emphasis on open architecture, plug-and-fight system capabilities in MEADS’ requirements has led to a MEADS Tactical Operations Center (TOC) that can support other MEADS stations, or even other air defense systems. Normal operations require only 2 of the 3 workstations, leaving an additional seat that lets the MEADS TOC be used as a wider task force level TOC, complete with German, Italian, U.S, and NATO command and control functionality. Germany planned to use this capability to integrate MEADS with ground-launched IRIS-T short range infrared guided missiles.

Lockheed Martin is even touting the MEADS BMC4I TOC as a key component of the US Army’s competition for an IBCS system that would integrate all anti-aircraft defenses in a sector.

MEADS: The Program MEADS fire unit
(click to see whole)

In September 2004, the NATO MEADS Management Agency (NAMEADSMA) awarded MI a Design & Development letter contract valued at approximately $2.0 billion + EUR 1.4 billion (about $3.7 billion total at the time). Because Germany hadn’t signed yet, the initial letter contract involved preliminary funding to proceed on a “limited basis,” under the authority of the American-Italian MEADS Design and Development Memorandum of Understanding. Germany’s acceptance and signature in April 2005 enabled NAMEADSMA to sign the full MEADS D&D risk-reduction contract.

The MEADS venture is being led by Lockheed Martin Corp. and includes MBDA Italia, French-German aerospace firm EADS and Germany’s MBDA-LFK (LenkFlugKorpersysteme). Together, these companies have focused an international engineering team in Orlando to develop systems and technologies for the MEADS program. Development work was allocated in accordance with national funding: USA 58%, Germany 25%, and Italy 17%.

• Lockheed Martin: Orlando, FL; Dallas, TX; Huntsville, AL; and Syracuse, NY.

• MBDA-LFK: BMC4I control suite, launcher, Surveillance Radar; and Multifunction Fire Control Radar (MFCR) elements at plants around Munich, Germany.

• MBDA’s Italian operating company MBDA Italia will perform work on the BMC4I, MFCR, and launcher/reloader elements in Rome, Italy.

MEADS MFCR radar
(click to view full)

The original 1990s plan for MEADS was for production by 2007, but the 2004 Memorandum of Understanding resulted in a late start, and envisioned System Design & Development until 2014. The US Army intended to see benefits before that 9-year period was over, revising its MEADS acquisition strategy to combine management, development, and fielding of both the MEADS and PATRIOT systems. Under this spiral development approach, the Patriot/PAC-3 system would evolve toward MEADS through the early introduction of the MEADS Major End Items (MEI).

Key milestones for MEADS included a systems requirements review, followed by subsystem and system-level preliminary design reviews from about February 2007 to August 2007. Subsystem critical design reviews (CDR) were finished in 2009, followed by a system-level CDR that finished in 2010. A series of 9 flight-tests were planned from 2011 – 2013, and deployment was scheduled for 2018.

That won’t happen in the USA. By 2009, the US Army had examined its budgets, and declared that it didn’t want the system. They also added a long string of extra requirements, involving expensive integration with back-end command and control systems. The US Missile Defense Agency might have picked MEADS up instead, but by 2011, MEADS production date with all the new requirements had slipped to 2018 at the earliest, and the Pentagon had reservations about MEADS ability to meet even that. The program’s cost estimate was around $4.2 billion, and revised estimates threatened to push it even higher. In response, the USA moved toward ending the program at the end of the Design and Development MoU. Later in 2011, Germany also announced that it would stop at the end of the MoU, as part of their ongoing budget austerity program.

Lockheed Martin has pinned some hopes on its eventual revival if tests go well, and they have. Germany and Italy are reconsidering a European Follow-On Program (EFOP), and interest from Japan may yet help to save MEADS. Russia has also provided considerable assistance, by reigniting an atmosphere of threat and crisis in Europe, and China has done the same in Asia. Their inadvertent cooperation may yet prove to be as pivotal to MEADS as the USA’s.

If Not MEADS, What? Aster-30 launch
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In MEADS’ absence, the US Army intends to continue relying on its existing PATRIOT batteries, with some system upgrades and the new PAC-3 MSE missile. The MEADS LFS surveillance radar, developed under a separate contract with Lockheed Martin, may be the next PATRIOT addition.

Germany and Italy would have several options, if they wish to continue air defense modernization. MEADS will finish its reconfigured development program, but it will do so with key technologies unfinished.

One option would be to finish MEADS and buy it. Drumming up export interest elsewhere is critical, and they’ve reportedly received some interest in via Poland’s WISLA national air and missile defense program, and from Japan.

Italy would like to field a single MEADS battery around Rome, as the best point defense system they can afford. Or, they could simply delete the requirement for a MEADS battery, and rely on their high-end modern SAMP/T Aster-30 systems, which are BMD-capable against short range missiles.

NASAMS launch
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Germany has several options of its own. One possibility would be to take the same approach as the USA, and upgrade their existing PATRIOT batteries. They’re already in talks to do so, and would like to add some MEADS technologies, just as the USA is doing. If they do, the BMC4I command system and links to IRIS-T SL/SLS missile launchers are likely to join whatever systems the USA integrates with PATRIOT.

If Germany wanted to reach for more range than MEADS, and better ballistic missile defense than PATRIOT, they could buy EuroSAM/MBDA’s SAMP/T systems of their own as a new customer. Adding Germany to create a customer core of France, Germany and Italy would improve export prospects in Europe and abroad, while offering useful industrial spinoffs as the system becomes the core of Europe’s missile defense. SAMP/T’s down side is its high cost, a potentially fatal problem given the Euro-zone’s fiscal woes and Germany’s budget austerity. On the other hand, Iran’s continued development of longer-range missiles and nuclear weapons is likely to continue ratcheting up the pressure for European missile defense. If Europe decides not to rely wholly on America’s “phased adaptive approach” of off-continent THAAD systems and land-based SM-3 missiles, SAMP/T would be the logical choice.

Another option for Germany would be to sacrifice ballistic missile defense capability, and field less expensive replacement systems like the AIM-120 AMRAAM-based NASAMS from Kongsberg and Raytheon, already employed by Dutch, Norwegian, and Spanish forces within NATO. NASAMS already employs the AIM-120 AMRAAM missile used by the Italian and German air forces. It can be supplemented with short-range, radar-independent missiles like the IRIS-T SL which Germany intended to add to MEADS, or NASDAMS can extend its overall range by adding the RIM-162 ESSM that serves on German ships. To date, however, NASMS installations have been fixed sites. Mobility is possible, but some work would be required.

Contracts & Key Events

Beyond 2011, PAC-3 MSE related contracts are covered under DID’s general PATRIOT program coverage, as the missile gears up for production beginning in FY 2014. This article will only cover new MSE contracts in the context of MEADS purchases.

FY 2014-2015

Odds improving in Polish competition; Twin-kill test; IFF Mode 5 certification. Test preview
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May 18/15: The German Defense Ministry has reportedly selected the MEADS system as a replacement for its existing Patriots. The Defense Ministry has neither confirmed nor denied the reports circulating in German media, with an official decision expected to be announced in June. MEADS – Medium Extended Air Defense System – has been jointly developed by Lockheed Martin and MBDA, with funding received from three partner nations; the US, Germany and Italy. If the system has been selected over competitor Raytheon – who are offering upgrades to the in-service Patriots – then this would be a much-needed boost to the MEADS consortium, which urgently needs a buyer having failed to impress the US Army owing to cost and schedule overruns.

June 30/14: Poland. Poland’s MON announces the Wisla program’s finalists: Raytheon, and EuroSAM. Poland won’t become part of the MEADS program, nor will it buy Israel’s David’s Sling. The 2-stage technical dialogue led Poland to conclude that they required an operational system, and valued prior integration into NATO systems. Accordingly, MEADS and David’s Sling failed to qualify. Sources: Poland MON, “Kolejny etap realizacji programu Wisla zakonczony”.

Loss in Poland

June 16/14: Germany. MBDA Deutschland spokesman Wolfram Lautner says that Germany is considering MEADS adoption, even if it means going it alone on a EUR 2.5 – 3.5 billion program. A decision is expected by the end of 2014:

“The money would be spent on aligning MEADS with German standards and adapting it to fire the Iris-T missile, and it would start to go operational by 2018-19…. There is a requirement, and an RFP could be issued either to MEADS or for an updated version of the Patriot system Germany operates…. After that, there will be a negotiated contract and parliament will decide since the cost will exceed [the legal threshold of EUR] 25 million.”

Sources: Defense News, “Germany Could Spend €3 Billion To Get MEADS Going”.

May 21/14: IFF certification. MEADS gets full Mode 5 Identification Friend or Foe (IFF) certification from the United States Department of Defense International AIMS (Air Traffic Control Radar Beacon System, Identification Friend or Foe, Mark XII/Mark XIIA, Systems) Program Office. The certified IFF system is used in both MEADS radar types: the UHF Surveillance Radar, and the X-band Multifunction Fire Control Radar.

Mode 5 is NATO’s most secure IFF mode, and certification is a big deal to European NATO countries who might wish to go forward with MEADS. Sources: MBDA, “MEADS System Gains Full Certification For Identifying Friend Or Foe Aircraft”.

IFF Mode 5 cert.

May 14/14: Poland. The USA has reportedly used export clearance to block Israel’s David’s Sling system from WISLA consideration, and France’s continued willingness to sell Russia amphibious assault helicopter carriers is hurting them. Which leaves a strong likelihood that WISLA will be American-made.

At the same time, Lockheed Martin’s Marty Coyne told Reuters that the US government had “supported the MEADS bid by giving Lockheed permission to offer producing its baseline PAC-3 missiles in Poland, and to help Polish industry set up production of its own long-range missile.” If the winner is MEADS, that would mean either a PAC-3 downgrade within the more advanced MEADS system, or full local production of the PAC-3 MSE, which is the USA most advanced air defense missile. Read “Alone, If Necessary: The Shield of Poland” for full coverage.

Nov 6/13: Twin-kill. MEADS testing provides an impressive swan song, as the system destroys a circling QF-4 Phantom drone to the south, while simultaneously nailing a Lance tactical ballistic missile coming in from the north at White Sands Missile Range, NM. The test used 3 PAC-3 MSE missiles, as planned, using semi-automatic mode to direct 2 missiles at the Lance and 1 at the QF-4.

The deployed system included all MEADS elements: The two 360-degree radars for Surveillance (UHF-band) and Multifunction Fire Control (X-Band), the Battle Manager, and a pair of launchers in the Italian and German configurations. Now it’s up to the USA to decide if it wants to add key MEADS technologies like the UHF VSR to PATRIOT, while Italy, Germany, and other potential buyers need to decide whether they want to buy the entire system. Sources: Lockheed Martin, Nov 6/13 release.

All tests finished

October 21/13: Testing. Lockheed Martin announces another successful test at White Sands, NM using the MFCR radar. Whereas the 1st test in April consisted of the (easy) tracking of a small aircraft, this time the result is more significant as the target was a 20 ft Lance tactical ballistic missile (TBM). Next month there is a final, more momentous test scheduled to wrap up 2013, which will combine the interception of a TBM with an air-breathing target. Source: Lockheed Martin, “MEADS Multifunction Fire Control Radar Tracks Tactical Ballistic Missile for First Time.”

FY 2013

Germany and Italy pursue EFOP follow-on, may have partners; MEADS cruise missile test is a kill; PAC-3 MSE missile aces high-low intercept test, MEADS wants its last test to be harder. Test launch #1
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June 19/13: Testing. During NATO’s Joint Project Optic Windmill (JPOW) exercises in May-June 2013, a MEADS tactical battle management command, control, communications, computers and intelligence (BMC4I) tested its ability to operate with other NATO systems. That’s important, because Germany, Italy, and others would need to use MEADS with NATO’s overarching command and control systems, in order to be most effective against ballistic missiles.

It was something of a lab test, and also somewhat limited. MEADS demonstrated the ability to transmit, receive and process Link 16 messages, as well as “other elements of threat engagement and target intercept.” It needs Link 16 and full threat engagement and target intercept data sharing. Lockheed Martin.

June 18/13: Testing & Future Plans. After the successful high-low test of PAC-3 MSE missiles mounted on a PATRIOT system (q.v. June 7/13), MEADS wants to use the same kind of challenging test for its last scheduled full-system test, with the 2 targets arriving almost simultaneously and 120 degrees apart, and 2 launchers participating together. That’s outside the PATRIOT’s capabilities, but proving MEADS this way means that the added cruise missile drone and accompanying test changes need to be funded. Which means they have to ask the USA, Germany, and Italy.

The Europeans may be interested in paying, even if the USA isn’t really sure what it wants to do with MEADS. That kind of demonstration would help their European Follow-on Program (EFOP) get traction with partners like Poland, and talks to lay out an EFOP plan are expected this fall. As things stand, it looks like the Europeans will get the BMC4I control centers to form the core of any further testing and development, a fire-control radar each, and 2 launchers. The United States really wants the surveillance radar. Aviation Week | Military.com.

June 16/13: Germany. Raytheon’s VP of Integrated Air and Missile Defense, Sanjay Kapoor, tells Bloomberg that Germany is discussing an upgrade of its own PATRIOT systems, and wants to incorporate elements of MEADS after spending all that R&D money. Bloomberg.

June 7/13: MSE Splash 2. The improved PAC-3 MSE aces a big test at White Sands Missile Range, NM, killing both a tactical ballistic missile (TBM) target and a cruise missile. The missile is fired as part of a PATRIOT system, as opposed to its more advanced MEADS counterparts.

The TBM was assigned 2 ripple-fired missiles, but the 1st hit so #2 self-destructed. Missile #3 took out the BQM-74 jet-powered target drone. Preliminary data indicates that all test objectives were achieved. Lockheed Martin | Raytheon.

May 15/13: Export interest. Aviation week quotes Italian National Armaments Director Lt. Gen. Claudio Debertolis, and Lockheed Martin Missiles & Fire Control EVP Rick Edwards, to confirm that 2 new nations are interested in MEADS. One of them is Poland, and the other is said to be Japan.

Poland is in the process of building a national air and missile defense system, and MEADS offers them a very strong air defense system with a BMD point defense option. Beyond its performance premium over PATRIOT, MEADS can also offer workshare benefits from early involvement.

Lt. Gen. Claudio Debertolis adds that Italy would like to deploy a single MEADS battery around Rome, as the most capable BMD solution that Italy can afford, given its poor fiscal situation. When one counts MBDA’s Aster-30 missiles deployed by Italian Horizon Class ships and SAMP/T army units, Rome could have a 2 layer BMD system. Aviation Week.

April 10/13: FY 2014 Budget. The President releases a proposed budget at last, the latest in modern memory. The Senate and House were already working on budgets in his absence, but the Pentagon’s submission is actually important to proceedings going forward. MEADS gets no FY 2014 funding, as expected. The $400.9 million budgeted in FY 2013 is designed to finish development, and meet all contractual obligations.

PAC-3 MSE missile production would begin with a budget of $540.5 million, covering 56 missiles plus long-lead time items for FY 2015’s 72 missiles. DID budget coverage.

April 9/13: Testing. MEADS tests continue under the development program, and Lockheed Martin continues to highlight progress in hopes of drumming up interest. During a recent test that tracked a small test aircraft near Syracuse, NY, MEADS’ UHF Low-Frequency Sensor radar succeeded in cueing its companion MFCR X-band fire-control radar, via the MEADS Battle Manager.

It’s a very basic test. Upcoming tests in a NATO exercise, and firing test #2 at White Sands missile range, will be much more significant. Lockheed Martin.

March 28/13: The US GAO tables its “Assessments of Selected Weapon Programs” for 2013. Which is actually a review for 2012, plus time to compile and publish. With respect to the “Patriot/Medium Extended Air Defense System (MEADS) Combined Aggregate Program (CAP) Fire Unit,” the report pegs funding from all parties through FY 2013 at $3.3255 billion, including $781.9 million from the Pentagon during FY 2012 and 2013.

Development of the system support vehicle, MEADS network radio, and reloader has been cut, focusing efforts on the 360-degree MFCR fire control radar; near-vertical launcher; and battle management system. Program officials cite all 3 as having met or exceeded predicted performance. So, which technologies are likely to find their way into other programs, other than the PAC-3 MSE missile? The volume search radar is cited as the leading candidate, followed by the near-vertical launcher, and the cooling technology used for its rotating phased array radars.

The system’s final test in late 2013 will involve a ballistic missile, against a MEADS system that accompanies the MFCR with a low-cost (just 50% of T/R arrays) version of the surveillance/ volume search radar design.

March 26/13: Politics. MEADS survives another Senate vote, with $381 million included in the Continuing Resolution to finish development. It’s the usual argument: the contention that cancellation would cost as much as finishing funding, while eliminating all of the associated jobs early and preventing the Army from picking up some MEADS technologies for future use.

The Council for Citizens Against Government Waste adds an interesting wrinkle, leaking a confidential Pentagon report that says it might not have to pay termination costs. It cites the 2005 MoU clause that makes MEADS activities subject to “the availability of funds appropriated for such purposes.” If Congress cuts off funding, does that mean the Army can exit the program with no penalty? Sen. Kelly Ayotte [R-NH] led the charge to reapportion MEADS funding to pay for operations and maintenance. Sens. Chuck Schumer [D-NY-LMCO], Senate Appropriations Chair Barbara Mikulski [D-MD], and Senate Majority Leader Harry Reid [D-NV] worked to keep Ayotte’s amendments from ever coming to the floor, believing that if they did, they’d probably pass.

In response, Sen. Ayotte has placed a hold on Alan Estevez’s nomination to be the next Principal Deputy Undersecretary of Defense for Acquisition, Technology and Logistics. She contends that MEADS was funded even though the NDAA prohibits such MEADS funding, via a provision that prevents the Pentagon from funding systems that won’t ever reach the battlefield. Sen. Ayotte in New Hampshire Sentinel Source | CNB News | Defense News Intercepts.

Jan 29/13: Italy & Germany letter. The German and Italian defense ministries send a formal letter to Secretary of Defense Leon Panetta, pressing the USA to continue MEADS funding through development. Excerpts:

“The results of the Design and Development (D&D) phase of the MEADS program remain vital for both Germany and Italy as they will be the basis for our future Air and Missile Defense System Architecture…. If the US does not fulfill its funding commitment for 2013, Germany and Italy would need to interpret this as a unilateral withdrawal. Under the terms of the MoU, Germany and Italy expect formal notification of the US intent to withdraw…. In a first estimate the current US position results in an economic damage to Germany and Italy of more than 400 Mio. US$…. In addition, there are wider implication of the US withdrawing or breaking the MoU and this would set a bad precedent for future transatlantic cooperation in principle.”

See: MEADS AMD [PDF].

Nov 29/12: Intercept. A partial MEADS configuration with a networked MEADS battle manager, a lightweight launcher firing the PAC-3 MSE, and a 360-degree MEADS Multifunction Fire Control Radar (MFCR) intercept and kill an MQM-107 target drone simulating a cruise missile.

This is MEADS’ 1st intercept test; a 2nd is planned for late 2013. Lockheed Martin | MEADS, incl. more photos etc.

Cruise missile intercept

FY 2012

MEADS: ground view
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Aug 21/12: US Army Brig. Gen. Ole Knudson, Program Executive Officer Missiles and Space, said during a conference that the surveillance radar is the piece of MEADS most worth salvaging. The Army has already turned the PAC-3 MSE missile into its own program, so perhaps he means “the next piece of MEADS most worth salvaging.” AviationWeek.

July 2012: Difficult funding. So far this fiscal year, reviving support in the US Congress for the program has been rocky. The Administration asked for $400M in its February budget request. In response, the House voted a bill that would prohibit obligating or expending funds for MEADS. Later the Senate Armed Services Committee concurred. In its statement of policy [PDF] issued in June in response to the House NDAA FY13 bill, the OMB wrote that it:

“strongly objects to the Committee’s decision to omit funding for MEADS. If the Congress does not appropriate the funding in the FY 2013 Budget request, there is a high likelihood that this action would be perceived by our partners, Italy and Germany, as breaking our commitment under the Memorandum of Understanding. This could harm our relationship with our Allies on a much broader basis, including future multinational cooperative projects. It also could prevent the completion of the agreed Proof of Concept activities, which would provide data archiving, analysis of testing, and software development necessary to harvest technology from U.S. and partner investments in MEADS.

SecDef Panetta wrote to SAC Chairman Inouye to ask for his support. That seemed to help as the Senate Appropriations Defense subcommittee maintained $380M for MEADS funding in its markup. However, given far from universal support in the Senate and opposition in the House, this will be hard to push through the eventual bill, whenever that happens given the likelihood of a Continuing Resolution in the fall. Scenarios to terminate MEADS were already floated in a CBO report on deficit reduction [PDF] and by the Pentagon (see Feb 14/11 entry) in early 2011.

July 9/12: MSS-M. Lockheed Martin deploys an 18-wheeler rig with its MEADS System Stimulator – Mobile (MSS-M) to White Sands Missile Range, NM. Its’s a way of reducing costs, and lowering risks, both of which are critical to a program whose funding is running down, with no buyer in sight.

Without MSS-M, they’d be limited to hardware-in-the-loop simulations in a laboratory environment. With it, they can do the same work in the field, running simulations and checking performance by the same live systems that will be used in firing tests. They will be very busy as the first MEADS target intercept test, scheduled for later in 2012, approaches. Lockheed Martin.

June 12/12: Testing. The 1st MEADS power and communications unit hass finished acceptance testing in Germany. The truck-mounted power and communications unit provides power for the MEADS fire control and surveillance radars. It includes a diesel-powered generation unit. A separate commercial power interface unit permits radar operation using commercial power (50 Hertz/60 Hertz). Lockheed Martin.

April 19/12: Testing. The 1st MEADS X-band Multifunction Fire Control Radar (MFCR) has begun system-level testing with a MEADS battle manager and launcher at Pratica di Mare AFB near Rome, Italy. Lockheed Martin.

Feb 22/12: Testing. Lockheed Martin announces that they’ve begun integration testing on the 3rd completed MEADS battle manager at its facility in Huntsville, AL. This one will be used as part of the ballistic missile intercept test planned for 2013 at White Sands Missile Range, NM. The other 2 are already supporting system testing at Pratica di Mare AFB, Italy and Orlando, FL.

Nov 17/11: The 1st full MEADS firing test successfully engages an “over the shoulder” target approaching from behind at White Sands Missile Range, NM. The test used the PAC-3 MSE missile, lightweight launcher and BMC4I battle manager, and the nature of the test required a unique sideways maneuver from the missile. Since the threat was not an actual target drone, the missile’s self destruct was triggered at the end. Lockheed Martin.

1st full firing test

Nov 10/11: Testing. In a simulated test at at Pratica di Mare, Italy, the MEADS BMC4I battle manager demonstrates the “plug and fight” concept, including attaching and detaching the launcher from the MEADS plug-and-fight network; configuring and initializing the MEADS launcher and simulated sensors; performing track management functions, threat assessment and identification; and transmitting a valid launch command to the launcher.

NAMEADSMA General Manager Gregory Kee adds that “Because of its advanced capabilities, there is international interest in MEADS.” Technicaly, that’s already true, due to its program structure. The question is whether there’s interest from an outside country with the funds to integrate MEADS into an existing air defense command-and-control framework, conduct further tests, and begin manufacturing. MEADS’ current publicity campaign is partly designed to help it find that buyer – if that buyer exists. Lockheed Martin.

Nov 3/11: The National Armaments Directors of Germany, Italy and the United States approve a amendment that lays out the rest of the MEADS System Development & Demonstration contract, which ends in 2014. Lockheed Martin will say only that MEADS “remains within the funding limit authorized… in the 2004 MEADS [MoU].” Testing will include engagement using remote tracks, plug-and-fight capabilities for MEADS components, the system’s netted/distributed operation, and interoperability through Link 16. In addition:

Fall 2011 will see a launcher missile characterization test, demonstrating MEADS’ 360 degree capability with an over-the-shoulder launch of a PAC-3 MSE missile, against a target approaching from behind.

Late 2012 will see an intercept flight test against an air-breathing (as opposed to rocket powered) threat.

Late 2013 will see a sensor test, followed by the grand finale: a tactical ballistic missile intercept test. Lockheed Martin.

Revised MEADS program

Nov 1/11: PAC-3 MSE. Lockheed Martin in Grand Prairie, TX receives a $16.1 million cost-plus-fixed-fee contract modification to cover PAC-3 MSE follow-on flight tests.

Work will be performed in Grand Prairie, TX; Chelmsford, MA; Camden, AR; Huntsville, AL; Pinellas, FL; Vergennes, VT; Hollister, CA; Torrance, CA; and Wichita, KS; with an estimated completion date of Dec 31/12. One bid was solicited, with one bid received (W31P4Q-07-G-0001).

Oct 24/11: Testing. Lockheed Martin announces that a MEADS launcher has arrived at White Sands Missile Range, NM, after system integration testing, to begin live fire testing. While PAC-3 MSE missiles have been fired before, it was done from existing launcher systems.

Integration and checkout tests are continuing in preparation for a November flight test, where the MEADS system will demonstrate an unprecedented over-the-shoulder launch of a PAC-3 MSE missile, against a simulated target that attacks from behind.

Oct 21/11: Deutschland raus. Germany changes its mind about termination, as it continues to cut its already weak defense sector. Under the new plan, Germany will also pull out of MEADS, and will cut its Patriot systems in half from 29 to 14.

This move virtually ensures the end of MEADS. If Italy also decides to pull the plug, as now seems likely, there will be no termination costs to fellow partners for shuttering the program. Depending on how they choose to go about closing things down, however, there may be termination costs to the contractors. Aviation Week.

Germany out

Oct 17/11: MICS. Lockheed Martin announces the early delivery of MEADS’ intra-fire unit communications kits for the MEADS Internal Communications Subsystem (MICS).

MICS provides secure communications between the MEADS sensors, launchers and battle managers across a high-speed internet protocol network. That network can have MEADS elements removed and added with no delay, and can be expanded to include other elements using a “plug-and-fight” architecture.

Oct 12/11: Battle Manager. MEADS International announces that they’ve begun integration testing on the first completed MEADS battle manager system (BMC4I TOC), which provides overall control and configuration of MEADS intended “plug and fight” system. The Battle Manager, mounted on back of an FMTV truck, completed acceptance testing in May 2011 at MBDA in Fusaro, Italy, and arrived at the MEADS Verification Facility in Orlando, FL in July 2011.

The Florida facility is putting the new system through its paces using the MEADS system stimulator, in preparation for a system live-fire in November at White Sands Missile Range, NM. In these simulated scenarios, the MEADS battle manager will configure the other major end items and receive Surveillance Radar tracks for simulated threats, cue the Multifunction Fire Control Radar, send launch commands, and complete interceptor launches and target intercepts.

FY 2011

MEADS BMC4I-TOC
(click to view full)

Sept 13/11: Lockheed Martin announces that MEADS’ Integrated Launcher Electronics System (ILES) has successfully executed a simulated missile launch, as they prepare for MEADS first major live-fire test in November at White Sands Missile Range, NM.

Aug 16/11: Battle manager. MEADS’ Battle Management Command, Control, Communications and Computers and Intelligence (BMC4I) “battle manager” successfully completes its software design review in Huntsville, AL. Lockheed Martin.

July 21/11: Unhappy partners. Italy and Germany are rattling cages in the USA, in response to FY 2012 budget committee votes. Germany is saying that they won’t agree to joint termination, while Italy’s undersecretary for defense, Guido Crosetto, sends a letter to the Pentagon saying:

“I expect that the U.S. DOD will put in place all the necessary actions to ensure that U.S. Congress will provide the required funds to complete the Meads development and meet our mutually agreed commitments within the limits… [otherwise] the U.S. shall then be required to bear all the resulting contract modifications and cancellation costs up to the total financial contribution established.”

Given the likely size of those contract penalties, that really does sound like an offer the USA can’t refuse. Bloomberg.

July 5/11: At least we’re secure. MEADS International wins its 3rd James S. Cogswell Outstanding Industrial Security Achievement Award. It’s presented by the U.S. Defense Security Service (DSS), who has responsibility for more than 13,000 cleared contractor facilities, during the National Classification Management Society’s Annual Seminar in New Orleans, LA.

Less than 1% are considered for Cogswell recognition, but MEADS International also won in 2000, and in 2007. Their 2011 Cogswell Award includes recognition for 7 consecutive years of Superior security ratings. Lockheed Martin.

June 21/11: Revised objectives. The National Armaments Directors of Germany, Italy and the United States have approved a revised set of MEADS development objectives, including 2 intercept flight tests by 2014. To support final system integration and flight test activities, MI has taken ownership of facilities at White Sands Missile Range, NM. Lockheed Martin.

June 15/11: Zero-out? Bloomberg reports that some members of the US Senate Armed Services committee are looking to zero-out MEADS funding in the FY 2012 budget. That happens the day after the US House Appropriations Committee approves a 2012 defense-spending draft that cuts $149.5 million from MEADS’ FY 2012 budget, and the SASC would go on to remove the MEADS’ request entirely.

The Pentagon has proposed funding MEADS development, due in part to MEADS’ termination costs. It remains to be seen whether that becomes a factor in debate.

May 4/11: PAC-3 MSE. Raytheon’s Patriot system successfully test fires Lockheed Martin’s PAC-3 MSE at White Sands Missile Range, NM. This is another step forward for MEADS development program. It also shows that the missile can be incorporated into existing Patriot systems, as an upgrade that stops short of full MEADS capabilities. Raytheon.

March 2011: Testing. The 2nd MEADS Launcher Platform Group (LPG) completes formal acceptance testing in Dello, Italy, after demonstrating capabilities including automatic upload/offload, switch from emplacement to mobile configuration, and detachment of components from the MAN truck carrier to allow helicopter transport.

Following integration with an Integrated Launcher Electronics System, Launcher Power System and Internal Communication System (MICS), the completed launcher will begin system-level integration with other MEADS elements, then begin flight tests at White Sands Missile Range, NM later in 2011. Lockheed Martin.

March 21/11: DOD Buzz reports from AIAA’s annual missile defense conference that MEADS may have bought itself the time it needs to survive, as the participants work to complete development instead of paying termination fees:

“Lockheed Martin believes there is a good chance the US will recommit to the tri-nation MEADS missile defense program, driven by its smaller manpower requirements, ease of transport and higher [8x – 10x higher] reliability. And Germany and Italian officials told a senior Lockheed official that they remain committed to MEADS and other countries may well join the program sometime in the next two years. Mike Trotsky, Lockheed’s vice president air and missile defense systems, told reporters during that adding more countries could substantially lower the price of American participation…”

April 15/11: The Pentagon’s Selected Acquisitions Report ending Dec 30/10 includes the “Patriot/Medium Extended Air Defense System Combined Aggregate Program (MEADS CAP) Fire Unit – Program”:

“…costs decreased $18,661.8 million (-85.0 percent) from $21,965.3 million to $3,303.5 million, due primarily to the Department’s decision to remove the production funding for the fire unit from the program and modify the design and development phase to continue as a proof of concept effort ending in fiscal 2014.”

SAR – termination

March 21/11: Testing. Lockheed Martin announces that a MEADS launcher and accompanying BMC4I Tactical Operations Center (TOC) have entered system test and integration at Pratica di Mare Air Force Base in Italy. Later additions of the Multifunction Fire Control Radar (MFCR) and a MEADS System Stimulator will enable demonstration of the full MEADS system in simulated engagements of live target aircraft. After pre-integration at Pratica di Mare, the MEADS system will complete integration at White Sands Missile Range, NM, and begin flight testing in 2012.

March 3/11: PAC-3 MSE. Lockheed Martin Corp. in Grand Prairie, TX receives a $7 million incremental-funding, cost-plus-fixed-fee contract to eliminate obsolete materials in the PAC-3 and PAC-3 MSE solid rocket motor, in support of the United States and Taiwan.

Work will be performed in Grand Prairie, TX, with an estimated completion date of June 30/14. One bid was solicited with one bid received (W31P4Q-07-G-0001).

March 2/11: BMD firing test. Lockheed Martin announces that a PAC-3 MSE missile successfully intercepted a “threat representative” tactical ballistic missile target at White Sands Missile Range, NM. Richard McDaniel, director of PAC-3 Missile Programs at Lockheed Martin Missiles and Fire Control:

“We continue to test the PAC-3 MSE Missile at higher altitudes and against more challenging targets, and it continues to meet expectations…”

Feb 16/11: Germany wobbles. Media reports confirm that Germany will not pursue MEADS beyond the development phase. A Feb 15/11 letter from the Germany defense ministry to its parliamentary budget committee was leaked to Reuters, and it reportedly states that:

“With the closing of the planned development of MEADS … between the United States, Germany and Italy,… a realisation or acquisition of MEADS will not be carried out in the foreseeable future…”

That doesn’t mean an immediate pullout. Announcements of the kind the Pentagon just made only happen after long and close consultation with partners, and agreement behind the scenes on what to do. All 3 countries will almost certainly be financing MEADS development instead of paying termination costs, before going their separate ways. Reuters.

Feb 16/11: Pentagon program suicide? DoD Buzz has a take on MEADS from Frank Cevasco. While a senior Pentagon official at the Office of the Secretary of Defense, Cevasco and co. pushed a future extended air defense program, which eventually became MEADS. His thoughts on what followed:

“I was told that doesn’t make sense [to want to replace Patriot units 1:1] as a MEADS fire unit has substantially greater geographic coverage than Patriot [but the Army did]. I agree there would be additional costs associated with integrating MEADS with a separate Army command and control system, a requirement that was levied on the program unilaterally by Army about two years ago. Moreover, a portion of the cost overruns and schedule slippages can be attributed to the Army and DoD technology disclosure community who refused to allow the MEADS industry team to share key technology. The matter was resolved but only after intervention by senior OSD officials and the passage of considerable time; and, time is money with major weapons system development programs… Army has done its best from the every beginning to sabotage the program, preferring to develop a US-only solution funded by the US (with funds provided by the good fairy).”

Feb 15/11: Germany. German lawmakers are pushing to follow the US lead and drop MEADS, but so far, Germany seems to be taking the same position as the US. Which isn’t really surprising, since the American decision would have been discussed extensively before it was made public. Opposition is coming from the Free Democrats and Greens, both minor players. The cost of continuing existing MoU commitments is about EUR 250 million for Germany, while the cost of cancellation is currently unknown. Bloomberg reports that:

“Germany will continue its commitments for the development phase of the project, according to a Defense Ministry official who declined to be identified in line with government rules. The official wouldn’t comment when asked about the government’s intentions beyond the development phase.”

Feb 14/11: Pentagon comptroller Robert Hale tells a budget briefing that the USA will fund MEADS up to its $4 billion cap and into FY 2013. After that?

“Yes, our proposal would be that we would invest no more U.S. funds in MEADS after 2013, fiscal year ’13. We will – we will let the program run out under its current plan so we don’t incur any termination liability. But we wouldn’t spend money beyond there. And we would try to harvest some of the technology, and we may use that in other programs, and our partners may go forward with some MEADS. But it is not our plan to do so.”

At present, the USA is committed to spending another $804 million under the current MEADS MoU. With MEADS behind on cost and schedule targets, a recent restructuring proposal would have reportedly added another 30+ months (to the existing 110 month development period) and another $974 million – $1.16 billion of American funding to the program. The Pentagon estimates that another $800 million would be needed to certify MEADS and integrate it into existing US air defense systems. In addition, MEADS lateness meant that the USA would have to spending more money than they had planned on new Patriot missiles and system modernization. That burden, on top of existing MEADS overruns and fielding costs, is what pushed the Pentagon to the breaking point with MEADS. Hence the current proposal, which will spend the committed $804 million or so on MEADS development instead of termination costs, produce prototypes and limited integration, and look to incorporate anything promising into existing systems.

The odds that Italy or Germany would pick up the system are poor, given Germany’s ongoing disarmament and austerity program, and Italy’s slow-motion budget crisis. The FY 2013 date is significant for the USA, however, as it leaves the next Presidential administration the option of deciding to keep MEADS going. Hale briefing transcript | Pentagon’s MEADs Fact Sheet [PDF] | Bloomberg | DoD Buzz | Gannett’s Army Times | Reuters.

US backing out

Feb 14/11: US Budget. The Pentagon unveils the official FY 2012 budget request, which amounts to $570.5 million for MEADS components.

$406.6 million would be dedicated to MEADS development, down from $467.1 million requested in FY 2011, and $571.0 appropriated in FY 2010.

The FY 2012 request also includes $163.9 million in PAC-3 MSE missile work ($89M RDT&E, $75M procurement), up from FY 2011’s request for $62.5 million.

Jan 31/11: Radar. Lockheed Martin announces that the MEADS Multifunction Fire Control Radar (MFCR) subteam at LFK in Germany completed integration of the antenna array in 2010, clearing the way for assembly-level testing of the Transceiver Group. Coolant pressure testing was completed, and cooling distribution was demonstrated at the slip ring and antenna rotary joint. Final rotation tests at both 15 and 30 rpm were successfully completed.

The X-band MEADS MFCR has not yet begun full system tests at Pratica di Mare air force base in Italy. The program is now completing final build, integration and test activities, hopefully leading to flight tests involving all system elements at White Sands Missile Range in 2012. If, that is, the program survives.

Jan 4/11: Passed but frozen. The FY 2011 US defense “budget” is passed in a very odd way, but it has a provision in it that’s specific to MEADS. About 75%, or $350.2 million of the approved $467 million annual funding, is frozen until a firm decision is made to either continue or cancel the program. There were also requirements in the Senate’s S.3454 bill, Sec. 233 around decisions by Germany and Italy regarding funding and production, and a variety of certifications and cost estimates. But the final bill passed was H.R. 5136.

Through June 30/10, the USA has approved spending about $2 billion on the program. So far, MEADS program estimates have grown in cost by about $900 million (to $4.2 billion), and its overall schedule has been delayed by 18 months. Bloomberg.

Dec 13/10: PAC-3 MSE. Lockheed Martin in Grand Prairie, TX receives a $9.1 million cost-plus-fixed-fee contract to design obsolete materials out of the PAC-3 and MSE solid rocket motor. These sorts of moves can improve performance, but their most important function is to ensure ongoing availability of spares and new-build components.

Work will be performed in Grand Prairie, TX, with an estimated completion date of Nov 30/13. One bid was solicited and one bid was received. by the U.S. Army Aviation and Missile Command Contracting Center in Huntsville, AL (W31P4Q-07-G-0001).

Nov 9/10: PAC-3 MSE. Lockheed Martin Missiles and Fire Control in Dallas, TX receives a $7.3 million cost-plus-incentive fee contract for PAC-3 MSE contract overrun funding.

Work is to be performed in Dallas, TX (95.74%); Camden, AR (0.25%); and Ocala, FL (4.01%), with an estimated completion date of Feb 29/12. One bid was solicited with one bid received by the U.S. Army’s AMCOM Contracting Center at Redstone Arsenal, AL (DAAH01-03-C-0164).

Oct 25/10: MICS. Lockheed Martin announces delivery of the first 2 MEADS Message Routing Subsystem units, as essential elements of the MEADS Internal Communications Subsystem (MICS) hardware, which will provide IP-based secure tactical communications between the launcher, surveillance radar and multifunction fire control radar across a high-speed network.

The Message Routing Subsystem supports the networked exchange of command, control and status data between the major components and the Tactical Operations Center.

FY 2010

MEADS elements
(click to see whole)

Sept 30/10: PAC-3 MSE. Lockheed Martin Missiles and Fire Control in Dallas, TX receives an $11.6 million cost-plus-fixed-fee contract for the Patriot PAC-3 MSE missile program.

Work is to be performed in Dallas, TX (95.74%), Camden, AZ (0.25%), and Ocala, FL (4.01%), with an estimated completion date of Feb 29/12. One bid was solicited with one bid received by U.S. Army Contracting Command’s AMCOM Contracting Center at Redstone Arsenal, AL (DAAH01-03-C-0164).

Sept 22/10: O&S costs. Lockheed Martin touts the MEADS program’s estimate of its required life cycle costs, which has been submitted to the governments of the USA, Germany, and Italy as cash-strapped European governments and the US Missile Defense Agency decide whether to use their funds to put MEADS into production. The assumptions and data used in that estimate aren’t discussed in any depth, but they contend that:

“MEADS will especially reduce operation and support (O&S) costs. Ordinarily, over two-thirds of the total cost of ownership is spent in this area, but MEADS O&S costs are about half [DID: which would be a 37% reduction – unless the absolute total is 37% or more higher than previous systems]. Savings result from features of the MEADS design that include high reliability, automated fault detection, prognostics, two-level maintenance and a reduction in the number of system elements. Additionally, MEADS was shown to defend up to eight times the coverage area with far fewer system assets… [DID: vs. Hawk? Nike Hercules? Patriot? Doesn’t say.]

NAMEADSMA General Manager Gregory Kee said, “The combination of advanced 360-degree sensors, near-vertical launch capability and the improved PAC-3 MSE Missile gives MEADS a far greater defended area. MEADS active phased array, digital beamforming radars make full use of the extended range of the PAC-3 MSE Missile.”

Sept 21/10: PAC-3 MSE. Lockheed Martin in Dallas TX receives $6 million in contract overrun funding for the Missile Segment Enhancement program’s cost-plus-incentive-fee contract.

Work will be performed at Dallas, TX; Camden, AZ; and Ocala, FL, and is expected to be complete by Feb 29/12. One bid was solicited, with one received by the US Army Contracting Command at Redstone Arsenal, AL (DAAH01-03-C-0164; Serial #1971).

Aug 26/10: CDR. MEADS completes its final Critical Design Review, leaving the United States, Germany and Italy to make decisions about moving on to low-rate production in October 2010. The government-industry team had to demonstrate 1,100 elements of design criteria during 47 separate critical design reviews, and the week of Aug 23/10 featured the final summary critical design review.

The next step will involve the NATO MEADS Management Agency, who will conduct an October 2010 program review during which decisions are expected concerning production rates and sizes during the LRIP and production and sustainment phases. The question is whether MEADS will continue beyond the development phase, and in what form. The US Army no longer wants the system, Germany’s Bundeswehr is in the midst of savage budget cuts, and Italy is finding it difficult to meet its existing budgetary commitments.

Meanwhile, the program’s initial phase continues, and MEADS International is now producing test hardware and prototypes. Current plans call for Practica di Mare AFB, Italy to begin receiving the system’s first battle management and command and control system in late 2010, followed by launcher and fire control radar hardware in early 2011. Surveillance radar integration activities will take place in Cazenovia, NY, before all of the hardware is shipped to White Sands Missile Range, NM for 3 years of flight testing, beginning early in 2012. Space News | Aviation Week | defpro | Lockheed Martin.

Critical Design Review

July 2010: Battle manager. MEADS battle management element demonstrates interoperability with the NATO Air Command and Control System (ACCS) during the Joint Project Optic Windmill (JPOW) test, which used NATO’s Active Layer Theatre Ballistic Missile Defense (ALTBMD) Integration Test Bed. During Optic Windmill, MEADS systems shared simulation and military communications data, including track reports for different tactical ballistic missile threats. The test represents the 1st time that the MEADS program has been authorized to exchange data outside of its 3 partner nations.

MEADS is designed to work with a wide range of platforms and command and control structures, and NATO interoperability is especially important to Germany and Italy. NATO ACCS is its overarching tactical command and control element for theater missile defense. NATO’s ALTBMD program is tasked with designing a theater missile defense architecture that will include MEADS as a key component.

Lockheed Martin’s Sept 27/10 release says that MEADS system elements are continuing integration and testing at system integration laboratories in the U.S. and Europe, and are on track for flight tests at White Sands Missile Range, NM, starting in 2012.

March 10/10: Army antagonism. The meeting, involving senior Army officers and the US Missile Defense Agency, produces no resolution concerning the potential transfer of MEADS to the US MDA. Instead, senior officials from both organizations reportedly agreed that follow-up questions needed to be answered, and additional analysis was needed first. Defense News.

March 9/10: Army antagonism. The Washington Post reports that the US Army wants to cancel MEADS:

“After several failed attempts, the Army is trying again to cancel a $19 billion missile defense system that the United States is developing in partnership with Italy and Germany… the Army says MEADS has become too expensive, is taking too long to produce and is difficult to manage because any changes in the program require German and Italian approval. “The system will not meet U.S. requirements or address the current and emerging threat without extensive and costly modifications,” an internal Army staff memo concluded last month in recommending the cancellation of MEADS… Officials said a primary reason for sticking with the project is that it would be too expensive to stop. If the Defense Department were to cancel the system now, it would be required to pay $550 million to $1 billion in penalties… [and could] undercut the Pentagon’s relations with Germany and Italy, which need to replace their own aging missile defense systems… The Army is scheduled to decide this week whether it will continue to oversee the development of MEADS or hand over responsibility to the Pentagon’s Missile Defense Agency.”

Feb 1/10: US Budget. The Pentagon releases its FY 2011 budget request, and begin to break out MEADS-related spending from its Patriot programs, instead of aggregating them.

The FY 2011 request is for $467.1 million, down from FY 2010’s $566.2 million budget, but still above FY 2009’s $454.7 million.

Oct 6/09: Foreign crypto. The MEADS program has received approval to use a European cryptographic device to implement SELEX Sistemi Integrati’s Identification Friend or Foe (IFF) in its radars, via a waiver from the U.S. National Security Agency. This makes MEADS the first American system ever to incorporate a foreign cryptographic device.

SELEX’s IFF will be packaged into MEADS’ UHF Surveillance Radar, and its X-Band Multifunction Fire Control Radar (MFCR) used for missile targeting. Selection of the SELEX unit means that the MEADS IFF subsystem is available to begin testing this fall at Pratica di Mare AFB near Rome, Italy, ahead of schedule. Lockheed Martin describes SELEX’s products as:

“…more robust than current implementations of U.S. IFF systems…SELEX leads U.S. industry in IFF development because Europe has already adopted new standards for radar operation and civilian aircraft. The U.S. is moving to adopt these standards in the future.”

FY 2009

PAC-3 MSE drawing
(click to view full)

Sept 15/09: T/R acceptance. EADS Defence & Security announces that its transmit/receive (T/R) modules for MEADS’ Multifunction Fire Control Radar (MFCR) have passed all required acceptance tests “with margin,” paving the way for integration into the 1st of 3 planned prototypes. The firm says that it has produced more than 10,000 of these modules already, which are core elements of the MFCR’s AESA radar. During the Design and Development phase, Defence Electronics will produce thousands of additional T/R modules, including the associated control electronics, under a EUR 120 million sub-contract.

These EADS DS T/R modules are the only ones in Europe which are certified in accordance with the International Electrotechnical Commission (IEC) standard – as is the “Microwave Factory” clean room facility in Ulm, Germany. These modules and technologies are mature, and have already been used in other EADS SMTR family radars, including the TerraSAR space radar, the BUR vehicle-mounted ground and air surveillance radar, and the Eurofighter‘s developmental E-Captor radar. EADS release.

Aug 5/09: Component CDRs. MEADS International announces that they has successfully completed Critical Design Reviews (CDRs) for all major components, clearing the way for production of radars, launchers, tactical operation centers, and reloaders needed for the system.

Under its design and development contract, this clears the way for MEADS International to provide 6 Battle Management, Command, Control, Communications, Computers and Intelligence Tactical Operations Centers, 4 launchers, 1 reloader, 3 surveillance radars, 3 multifunction fire control radars, and 20 PAC-3 Missile Segment Enhancement missile rounds for system tests at White Sands Missile Range, NM.

The next stage is a set of CDRs for the system as a whole, instead of just its individual components. A total of 15 system-level CDR events will be completed in the year ahead, leading to final evaluations of MEADS’ survivability, logistics, safety, integration and test, life cycle cost, and performance. The final system-level CDR event is expected in August 2010, and initial flight tests are planned for 2012.

Feb 2/09: MEADS + IRIS-T. Lockheed Martin announces Germany’s request to add the IRIS-T SL (Surface Launched) as a secondary MEADS missile for German fire units. The request will involve software adaptation to integrate the missile and launcher Via a standardized plug-and-fight data interface, and incorporation of the second missile into existing MEADS simulations. This will be an early test of the system’s open architecture electronics. Incorporating the missiles themselves will not require any redesign of MEADS hardware.

The IRIS-T SL system is based on the concept of the short-range, infrared guided IRIS-T air-to-air missile, adding a larger solid-propellant rocket motor, a data link, and a nose cone for drag reduction. The combination of radar-guided PAC-3 MSE and infrared-guided IRI-T SL missiles would expand MEADS’ options by allowing for engagements even with the tracking radar shut down as a result of command decisions or damage. Competing launchers like Israel’s Spyder-MR (Derby radar-guided and enhanced Python-5 missiles) and France’s MICA-VL (MICA-IR and MICA-RF missiles) employ similar philosophies. Lockheed Martin.

Adding IRIS-T SL

FY 2008

BMC4I TOC
(click to view full)

March 28/08: Lockheed Martin Corp. in Grand Prairie, TX received a $6.7 million cost-plus fixed fee contract finalizing the change order for the CLIN 0002 PAC-3 missile segment enhancement, effort, and making changes to the PAC-3 MSE master test plan. See Jan 16/08 for more.

Work will be performed in Grand Prairie, TX and is expected to be complete by March 31/09. One bid was solicited on July 30/07 by the U.S. Army Aviation and Missile Command at Redstone Arsenal, AL (DAAH01-03-C-0164).

Feb 18/08: Nav. Northrop Grumman Corporation announces that MBDA Italia chose their navigation and localization system for NATO’s MEADS program within the design and development phase.

Feb 11/08: Lockheed Martin announces that the MEADS project has completed its System Preliminary Design Review (PDR), which tests whether the basic design of MEADS is ready to move forward into detailed design. Over the 6-month period leading to the PDR summary event on December 18, transatlantic review teams attended 27 multi-day design reviews to ensure that the needs of the three3 partner nations are being met.

The MEADS team will now focus on detailed design work for the system, with the Critical Design Review (CDR) scheduled for 2009, leading to initial MEADS flight tests in 2011. Lockheed Martin release.

Preliminary Design Review

Jan 16/08: PAC-3 MSE. Lockheed Martin announces that NATO’s MEADS Management Agency awarded them a $66 million contract to develop the Lockheed Martin PAC-3 Missile Segment Enhancement (MSE) Missile as the baseline interceptor for the tri-national program. The baseline PAC-3 Missile was selected as the primary missile for MEADS when the design and development program began in 2004, but PAC-3 MSE adds additional range and coverage by using larger folding control surfaces, and a more powerful rocket motor designed to boost range by up to 50%, to about 30 km/ 18 miles.

The MEADS Steering Committee, composed of 1 government representative from each of the 3 participating nations, recommended the change following submittal of a study by MEADS International, Inc. that assessed the principal technical, schedule, cost, contract and program implications of integrating the PAC-3 MSE Missile instead. MEADS International Technical Director Claudio Ponzi:

“Changing the baseline interceptor during our Preliminary Design Review keeps risk to a minimum and keeps us on track to provide the three nations with the 21st century air and missile defense system they have requested.”

PAC-3 MSE development

Nov 15/07: Security. For the third consecutive year, MEADS International receives Superior ratings in an annual audit by the U.S. Defense Security Service (DSS). DSS has responsibility for approximately 12,000 cleared contractor facilities, and fewer than 5% demonstrate the top-rated “Superior” performance for an industrial security program. It’s reserved for contractors that consistently and fully implement the requirements of the National Industrial Security Program Operating Manual in a documented fashion that provides a superior security posture, compared with other contractors of similar size and complexity.

In announcing the results, DSS team leader Rob Gerardi noted that although MI received a Superior rating in 2006, the inspection team found several improvements to the security program this year. Lockheed Martin release.

FY 2007 and earlier

Aug 14/07: TOC. MEADS International releases more details concerning its Tactical Operations Center (TOC). With a large US Army contract on the horizon for an IBCS system that would integrate all anti-aircraft defenses in a sector, MI President Jim Cravens adds that:

“We have invested years of architectural and conceptual work to meet these requirements via an open, modular set of software that gives MEADS great flexibility to accommodate additional requirements. This flexibility offers the U.S. Army an opportunity to leverage the MEADS Battle Manager functionality as a backbone for its IBCS (common TOC) initiative.”

Lockheed Martin joined Northrop Grumman’s IBCS bid team in April 2007, becoming the 3rd member alongside NGC & Boeing. Their team’s main competitor is Raytheon, who is partnered with General Dynamics as well as Davidson Technologies, IBM, and Teledyne Brown Engineering.

Aug 7/07: Lockheed Martin announces that MEADS recently completed its 2-day Start of System Preliminary Design Review (PDR), which allows the project to continue on to detailed design.

The Start of System PDR marks the end of 33 months of Design and Development effort. It summarized previous Major End Item-level PDRs, including allocated baseline documentation, and addressed a set of operational and performance analyses. The PDF kicks off a series of 29 reviews over the next 4 months, leading to a Summary System PDR in late October 2007. Initial flight tests are still scheduled for 2011.

June 19/07: Security Award. MEADS International announces that The US Defense Security Service (DSS) has announced that MEADS International is one of 30 companies to receive the James S. Cogswell Outstanding Industrial Security Achievement Award, the most prestigious honor DSS may bestow on a cleared facility. To be a candidate for the award, a facility must receive a minimum of two consecutive Superior industrial security review ratings and show sustained excellence and innovation in their overall security program, including a security program that goes well beyond basic National Industrial Security Program requirements.

This is MEADS International’s second James S. Cogswell award, and follows implementation of a transatlantic NATO classified network that enables MI’s 7 work locations to collaborate in designing the MEADS system. MEADS International release.

Jan 16/07: Lockheed Martin announces a $3 million contract from the Missile Defense Agency (MDA) to continue the Air-Launched Hit-to-Kill (ALHTK) initiative, which would enable fighter aircraft to carry and launch Patriot Advanced Capability-3 (PAC-3) Missiles to intercept hostile ballistic and cruise missiles.

Since a modified PAC-3 is slated to act as the MEADS system missile, and air-defense batteries can share information with fighters via channels like Link 16, the announcement has implications for future MEADS capabilities as well.

Feb 9/06: Management. MEADS International announces 2 changes within its management organization on the Medium Extended Air Defense System (MEADS) program, adding a finance director/ treasurer, and a planning manager.

Aug 4/05: Management. MEADS International announces the expansion of its Orlando technical management organization to lead development of the Medium Extended Air Defense System (MEADS) with a multinational set of appointments. In addition, 3 new positions have been added to the program management Team. See MEADS International release for more details.

June 17/05: MBDA buys LFK. MBDA buys a 100% stake in LFK, which used to be owned jointly by EADS and MBDA.

June 1/05: MEADS International Signs $3.4 Billion Design and Development Contract. The D&D contract extends the period of performance of a previous letter contract that was awarded to MI by the NATO MEADS Management Agency (NAMEADSMA) in September 2004. Lockheed Martin release.

Final SDD contract

April 20/05: Germany approves involvement in MEADS missile. This clears the way for the signing of the full development contract.

September 2004: NATO’s MEADS Management Agency (NAMEADSMA) awards MEADS International a letter contract valued in then-year terms at approximately $2.0 billion plus EUR 1.4 billion euros to design and develop the system, with an initial period of performance for which the overall maximum financial ceiling was approximately $54.5 million plus EUR 54.8 million.

Initial SDD contract

Additional Readings The Program

• US Office of the Secretary of Defense (Feb 11/11) – Medium Extended Air Defense System (MEADS) Fact Sheet [PDF]. Provides program background, and explains the decision to end funding in FY 2013.

• MEADS International Inc. See also MEADS Program Overview Presentation [PDF]

Background: MEADS Components

• Lockheed Martin – Medium Extended Air Defense System (MEADS).

• Lockheed Martin – PAC-3 Missile Segment Enhancement.

• Diehl BGT Defence – IRIS-T SL / IRIS-T SLS. Will serve as as the secondary missile in the German MEADS system.

• Army Technology – MEADS Medium Extended Air Defense System, Germany / Italy / USA.

• GlobalSecurity.org – Medium Extended Air Defense System (MEADS) Corps SAM.

Background: Related Systems

• US Missile Defense Agency – Terminal Phase Defense. Includes THAAD, Arrow II, Patriot PAC-3 & MEADS.

• Designation Systems – Lockheed-Martin Patriot PAC-3.

• DID FOCUS Article – Keeping Patriots in Shape. The Patriot Engineering Support contract already included provisions for MEADS-related MEI work.

DID FOCUS Article – THAAD: Reach Out and Touch Ballistic Missiles. A ground-based complement to MEADS that offers the next step up in range.

News & Views

• DID – Alone, If Necessary: The Shield of Poland.

• SLD (Oct 28 – Nov 5/10) – Regional Missile Defense: The Challenge of Crafting Integrated Missile Defense in NATO and Other Allied Regions. Read Part One | Part Two.

• Air Defense Artillery Magazine (July-September 2005) – It’s Time to Start Thinking MEADS [PDF]

• Aviation Daily & Defense Report (Oct 27/04) – Germany Expected To Approve New MEADS Phase In December. Actually, it happened in late April, 2005.

• BASIC Publications (May 15/01) – European Missile Defense: New Emphasis, New Roles.

PW F119: Power!
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The Adaptive Versatile Engine Technology (ADVENT) program aims “to develop and demonstrate inlet, engine, exhaust nozzle, and integrated thermal management technologies that enable optimized propulsion system performance over a broad range of altitude and flight velocity.” That sounds boring, but what if we put it like this:

ADVENT aims to produce a revolution in jet engine design. Imagine the jet equivalent of a car engine that could give you Formula One performance or sub-compact mileage as required. ADVENT-equipped aircraft would have extra-long range, but be able to switch quickly to high-speed power maneuvers and still be comparatively efficient. The new engine design will use adaptive fan blades and engine cores to generate high thrust when needed, and optimize fuel efficiency when cruising or loitering, in order to combine the best characteristics of high-performance and fuel-efficient jet engines.

That certainly sounds much more exciting. Now, ADVENT also sounds very real – because the program is under way, with over $600 million in contracts to 4 different vendors… and 2 big losers.

GE Aviation won up to $325 million in additional funds in January 2015 to work on an adaptive cycle engine under phase three of the Versatile affordable advanced turbine engines (VAATE) program that preceded ADVENT.

In April, the Air Force also awarded a $325 million IDIQ contract to engine manufacturer Pratt & Whitney for the Versatile Affordable Advanced Turbine Engines (VAATE) engine’s Phase III stage.

ADVENT, HEETE, and VAATE

GE90: Efficient!
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Project ADVENT is a actually the flagship effort under the Versatile, Affordable Advanced Turbine Engines Program, or VAATE. Managed by the Propulsion Directorate, VAATE’s goal is to increase turbine engine affordability tenfold while improving performance.

The VAATE program, structured around 4 focus areas, emphasizes specific themes important to achieving the affordability goal. The Durability Focus Area aims to develop, design, and test protocols to prevent component failure, increase life, enhance reparability, and perhaps improve performance. The Versatile Core Focus Area, will develop technologies for a multi-use, 4000-hour, maintenance-friendly engine core (compressor, combustor, and turbine). The third area, the Intelligent Engine Focus Area, will develop and integrate technologies that provide durable, adaptive, damage-tolerant engine health and life management features. Finally, engine-airframe integration technologies are key in attaining the significant cost and weight reductions required in order to achieve the VAATE tenfold goal.

The smaller Highly Efficient Embedded Turbine Engine (HEETE) program is a parallel and related effort, aiming to prove that a “quantum leap” in high-pressure compressor systems is possible. If that 3-year project proves successful, the AFRL would seek to integrate HEETE’s more advanced compressor systems into VAATE, incorporating these advances into the new engine cores developed under the ADVENT project.

The DefenseLNIK contract announcements states that:

“The ADVENT program will demonstrate integration technologies to Technology Readiness Level (TRL) 4-5 and engine technologies to TRL-6 in a large thrust class, with emphasis on multi-design point demonstration of significant advancements in thrust, fuel efficiency, development cost, production cost and maintenance cost characteristics over baseline engines.”

Technology Readiness Level 4-5 means lab tests where basic technological components are integrated to establish that the pieces will work together (TRL 4), with reasonably realistic supporting elements so that the technology can be tested in a simulated environment (TRL 5). Examples include ‘high fidelity’ laboratory integration of components. TRL 6 is a major step up, and involves a working prototype that can be tested in a relevant environment.

As for “significant advancements in… development cost, production cost and maintenance cost characteristics,” that will probably happen, but not in the way the USAF was thinking. Barring significant successes on ADVENT’s other fronts, variable engines are likely to be more complex to develop, may see higher production costs due to material requirements for higher temperature tolerances, and may also involve higher maintenance costs if the result is more moving parts. On the flip side, greater engine standardization might be possible, which may provide some maintenance savings.

VAATE seeks to transcend all of these limitations, but research programs rarely hit all of their goals. Even if all of the negative predictions above held true, however, an ADVENT-type engine would definitely save money on operating costs, while offering higher performance. This would still be worth the extra purchase investment for many airlines, and for some power generation applications as well. Those are considerable benefits all by themselves, and the Air Force’s need for extra power in life-or-death situations would make them the most obvious customer of all.

Contracts & Key Events

Smart Engines
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Unless otherwise specified, the Air Force Research Laboratory at Wright-Patterson Air Force Base, OH issued the contracts.

May 18/15: General Electric and Pratt & Whitney were both awarded $105 million modifications on Friday to cover a potential contract award for the Adaptive Engine Technology Development order, with the Air Force also reportedly looking to open future competition for F-35 upgrades.

GE Aviation won up to $325 million in additional funds in January 2015 to work on an adaptive cycle engine under phase three of the Versatile affordable advanced turbine engines (VAATE) program that preceded ADVENT.

In April, the Air Force also awarded a $325 million IDIQ contract to engine manufacturer Pratt & Whitney for the Versatile Affordable Advanced Turbine Engines (VAATE) engine’s Phase III stage.

Oct 18/09: Rolls-Royce North American Technologies, Inc. announces its selection to proceed with Phase II of ADVENT development. Next steps will include the integration of a variety of advanced technologies, component testing and development of a technology demonstrator core and engine. See also: Britain’s Times.

Oct 1/07: The AFRL rejected bids by United Technologies subsidiary Pratt & Whitney and by Honeywell to win the so-called Highly Efficient Embedded Turbine Engine (HEETE) contracts, one month after P&W was the sole losing bidder for the AFRL’s Adaptive Versatile Engine Technology (ADVENT) program. Flight International explains the implications:

“P&W’s loss of both ADVENT and HEETE means it must devote internal research and development funds to keep pace with its rivals after production of its latest generation fighter engine – the Lockheed Martin F-35 Joint Strike Fighter’s F135 – runs its course… The HEETE project is necessary because the commercial technology stops short of the military’s requirements for next-generation compressor systems, with the contract aiming to prove that a “quantum leap” in high-pressure compressor systems is possible. If the three-year project proves successful, the AFRL would seek to integrate HEETE’s more advanced compressor systems into the new engine cores developed under the ADVENT project.”

Sept 27/07: Northrop Grumman Integrated Systems Sector of El Segundo, CA received an indefinite delivery/indefinite quantity contract for $40 million. The objective of the ADVENT program is to develop and demonstrate inlet, engine, exhaust nozzle, and integrated thermal management technologies that enable optimized propulsion system performance over a broad range of altitude and flight velocity.

The ADVENT program will demonstrate integration technologies to TRL 4-5 [components tested] and engine technologies to TRL-6 [prototype] in a large thrust class (25,000 lbs.) with emphasis on multi-design point demonstration of significant advancements in thrust, fuel efficiency, development cost, production cost and maintenance cost characteristics over baseline engines. At this time $1,000 has been obligated (FA8650-07-D-2800).

Sept 25/07: The US Air Force Research Laboratory has awarded a total of $35.6 million in cost-share contracts to Rolls Royce-North American Technologies Inc., and General Electric Co. to begin developing a game-changing class of engines, known as Highly Efficient Embedded Turbine Engines (HEETE). Rolls Royce will be receiving $19.6 million in its portion of the contracts while General Electric will receive $16 million. Rolls Royce and GE will conduct high-pressure and high-temperature rig tests on the compression systems that are critical to the HEETE concept. Development work will be conducted at Rolls Royce’s Liberty Works facilities in Indianapolis, IN; and at General Electric’s Evendale, OH, facility. Rolls Royce release.

HEETE is a technology development program that pursues high temperature, high pressure ratio compressor technologies and their related thermal management features. While HEETE is currently focused on an advanced compressor demonstration, the goal is to define the next generation engine architecture for subsonic missions. This also involves active flow control inlets and exhausts, with a focus on 20,000-35,000 pound thrust class. There were also losers. Flight International adds:

“The US Air Force Research Laboratory (AFRL) announced on 25 September awarding contracts to General Electric and Rolls-Royce… However, the AFRL rejected bids by Pratt and Honeywell to win the so-called Highly Efficient Embedded Turbine Engine (HEETE) contracts.”

Sept 21/07:Lockheed Martin Aeronautics Company-Fort Worth of Fort Worth, TX received an indefinite-delivery/ indefinite-quantity, cost-reimbursement contract for $40 million (maximum) for the ADVENT program. The emphasis will be on multi-design point demonstration of significant advancements in thrust, fuel efficiency, development cost, production cost and maintenance cost characteristics over baseline engines. It covers demonstration of integration technologies to TRL 4-5 and engine technologies to TRL-6 in a large thrust class (25,000 lbs.). At this time $1,000 has been obligated (FA8650-07-D2798).

Aug 27/07: General Electric Aircraft Engines in Cincinnati, OH received a cost-sharing ADVENT contract for $231.2 million. At this time, $129,140 has been obligated. Solicitations began in March 2007, negotiations were completed in August 2007, and work will be complete in September 2012 (FA8650-07-C-2802).

The AFRL explained to DID that this award was originally announced at the same time as the Rolls Royce award, on Aug 15/07. In reality, however, it hadn’t been finalized yet. Hence the repeat announcement. We’ve revised the date accordingly.

Aug 15/07: Rolls-Royce Corp. in Indianapolis, IN received a cost-sharing ADVENT contract for $296.3 million. At this time, $98,770 has been obligated. Solicitations began in March 2007, negotiations were completed in August 2007, and work will be complete in September 2012 (FA8650-07-C-2803). Rolls Royce release.

Additional Readings & Sources

• Flight International (May 1/07) – Military engines: Power Surge

• US Air Force (March 27/07) – Air Force plans to develop revolutionary engine

• Aviation Week Ares (March 27/07) – Stop and go

• Air Force Research Laboratory, Horizons Magazine (December 2001) – Future Aircraft Jet Engines Will Think for Themselves

Mk-44 firing RAM
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The Rolling Airframe Missile (RAM) MK-31 guided missile weapon system is co-developed and co-produced under a NATO cooperative program between the United States and German governments to provide a small, all-weather, low-cost self-defense system against aircraft and cruise missiles. The RIM-116 was later called RAM (Rolling Airframe Missile), because it spins during flight. To save costs, Designation Systems notes that the RAM was designed to use several existing components, including the rocket motor of the MIM-72 Chaparral, the warhead of the AIM-9 Sidewinder, and the Infrared seeker of the FIM-92 Stinger. Cueing is provided by the ship’s radar, or by its ESM signal tracing suite.

RAM is currently installed, or planned for installation, on 78 U.S. Navy and 30 German Navy ships, including American LSD, LHD, LPD and CVN ship types. This number will grow as vessels of the LPD-17 San Antonio Class and Littoral Combat Ships enter the US Navy, and the LCS will sport an upgraded SeaRAM system that will include its own integrated radar and IR sensors. Abroad, the South Korean Navy has adopted RAM for its KDX-II and KDX-III destroyers, and its LPX Dokdo Class amphibious assault ships; other navies using or buying RAM include Egypt, Greece, Japan, South Korea, Turkey, and the UAE/Dubai.

RAM Systems: Fast, Flat & Flexible From USS Kitty Hawk
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GlobalSecurity.orrg notes that The MK-31 RAM Guided Missile Weapon System (GMWS) is defined as the MK-49 Guided Missile Launching System (GMLS) and the MK-44 Guided Missile Round Pack (GMRP). The launching system and missiles comprise the weapon system. The RAM weapon system consists of a 21-round missile launcher, below-deck electronics, and a guided missile round pack. The round pack consists of a 5-inch supersonic missile and a launching canister, which slides into the launcher and provides the interface with the carried missile. The term “All-Up-Round (AUR)” is often used, as the canister is also used for storage/transport.

Raytheon’s partner is the German firm RAMSYS, a joint company of Diehl/BGT and EADS GmbH. These firms extended their agreement for another 10 years in June 2004.

System improvements continue. New MK-44 Guided Missile Round Packs and ORDALT kits are designed to upgrade current systems to RAM Block 1 missile configuration (RIM-116B) or above. Block 1 systems feature an image scanning infrared seeker that allows the missile to more easily counter helicopters and advanced anti-ship threats that do not employ active radar guidance. Another new feature is called IRDM (IR Dual Mode Enable). In that mode, the RAM missile is launched with IR guidance enabled, but can switch to passive radar homing when the target’s radiation becomes adequate to guide on. It also incorporates HAS (Helicopter, Aircraft, Surface) software that lets it prosecute a wider array of targets out to about 9 km/ 4.9 nm, including targets like speedboats that move at slower speeds in radar/IR clutter.

RAM Block 1. This system is installed or planned for installation on many U.S. Navy surface ships, including CV/CVN aircraft carriers, DD-963 Spruance Class destroyers, Oliver Hazard Perry Class FFG guided missile frigates, Littoral Combat Ships, the LHA Tarawa Class and LHD Wasp Class amphibious assault ships, the future LHA-R amphibious assault ships, and LSD and LPD-17 amphibious assault ships. The US Navy expects to buy around 2,000 Block 1 missiles in total.

SeaRAM
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Follow-on modifications include an upgraded missile, and the SeaRAM system.

RAM Block 2. A new version that is beginning production, with deliveries beginning in August 2014. The RIM-116 missile’s effective range gets a boost via a larger dual-thrust rocket motor, while an independent 4-canard control actuator system improves maneuverability. Other enhancements include an upgraded passive radio frequency seeker, a digital autopilot, and engineering changes in selected infrared seeker components. The Block 2 system demonstration and development (SDD) program was scheduled to reach initial operating capability in 2011, but it’s 2013 and the missile is still in testing. IOC will wait until 2014.

While most of the RAM Block 2 work is Raytheon’s, the effort is a partnership. Operating under a cooperative Memorandum of Understanding for the Block 2 SDD program, German industry partner RAM-System GmbH also received funds. They’re working to develop an evolved missile radio frequency sensor with better sensitivity and discrimination, in order to kill targets that are using more advanced guidance radars.

SeaRAM. RIM-116 Block 2 missiles, and Block 1 upgrades to the MK31 system, will both be incorporated into the new SeaRAM variant, also known as the “MK 15 MOD 31 PHALANX SeaRAM Close-In Weapon System.” Once it’s bolted on and installed, SeaRAM becomes a complete, self-cueing system that can work with existing systems, or operate on its own. It packages the RAM Block 1 upgrade’s infrared sensors and IR dual-mode with the radar dome mounted on top of the Mk15 Phalanx 20mm CIWS. The penalty for its bolt-on versatility is that it cuts the 21-round missile launcher down to an 11-missile load, in order to remain within the same space “footprint” as the Phalanx 1B. It will equip the USA’s new Littoral Combat Ships, among others.

Program and Budgets

While the number of RAM missiles procured by the USA has been relatively stable each year, Pentagon budget documents show US program spending fluctuating. That’s because some annual budgets also include funds for system upgrades (generally from Block 0 to Block 1) and things like Block 2 development work:

These budgets do not include international orders.

Contracts & Key Events

Unless otherwise stated, all contracts are awarded by the Naval Sea Systems Command in Washington, DC to Raytheon Company in Tucson, AZ. It should be noted, however, that the RAM Guided Missile Weapon System is co-developed and co-produced under a NATO Cooperative Program between the United States’ and Federal Republic of Germany’s governments.

FY 2014-2015

RAM reload
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May 18/15: The Navy announced Friday that it has achieved Initial Operating Capability with the Block II Rolling Airframe Missile aboard the USS Arlington (LPD 24). The joint program with Germany was recently included as part of a $1.6 billion overhaul package by the US Navy intended to provide improved protection to carriers and amphibious ships.

May 11/15: The Navy is planning to spend $1.6 billion on carrier and amphibious ship defenses in order to protect the Service’s fleet of F-35s. The new defenses will focus on supersonic threats, with a series of overhauled technologies including new missiles and radars set to be integrated into Ship Self Defense Systems (SSDS). Key components of these future systems include the Rolling Airframe Missile and the Evolved Sea Sparrow Missile.

Aug 27/14: Block 2. Raytheon delivers the 1st RAM Block 2 missile to the US Navy, as part of the company’s 2012 Low Rate Initial Production contract. Sources: Raytheon, “Raytheon delivers first Block 2 Rolling Airframe Missiles to US Navy”.

1st Block 2 delivery

July 30/14: GAO Report. The US GAO releases Report #GAO-14-749, “Littoral Combat Ship: Additional Testing and Improved Weight Management Needed Prior to Further Investments.” It looks at weight issues within the 2 Littoral Combat Ship classes. Though Freedom Class LCS 5 and beyond will make enough changes to meet their required design margin:

“Another proposed change would increase commonality and combat capability by replacing the Freedom variant’s rolling airframe missile system with the heavier [SeaRAM] missile system found on the Independence variant. While the specifics of this potential change have not yet been determined or approved, Navy technical experts told us that such a modification would subsequently increase the Freedom variant’s weight and could also result in center of gravity changes.”

June 24/14: FY 2014. A $73.4 million firm-fixed-price contract for FY 2014 rolling airframe missile (RAM) guided-missile round pack requirements for the U.S. and allied navies, including 23% of the contract’s value for Japan, spares for the Federal Republic of Germany, and testing equipment upgrade and replacement requirements. All funds are committed immediately.

This contract involves foreign military sales to Japan (23%). Work will be performed in Tucson, AZ (49.7%); Ottobrunn, Germany (42.7%); Rocket Center, West Virginia (4.5%), and Andover, Massachusetts (3.1%); it is expected to be complete by November 2016. This contract was not competitively procured (N00024-14-C-5417).

FY 2014: USA, Japan

Jan 3/14: Raytheon in Tucson, AZ receives a $52.1 million Design Agent Engineering and Technical Support Services modification for maintainence of, and improvements to, the Mk15 Phalanx, Land-based Phalanx, and SeaRAM weapon systems.

Work will be performed in Tucson, AZ, and is expected to be complete by January 2015. $12.5 million is committed immediately from a wide array of USN FY 2014 and FY 2013 R&D, weapons, and shipbuilding budget lines, plus a US Army budget. Of that, $4 million will expire on Sept 30/13 (N00024-12-C-5405).

Dec 9/13: Support. Raytheon in Tucson, AZ receives a $35 million contract modification, exercising an option for MK-31 RAM’s FY 2014 design agent engineering services. This will include improvement program support, guided-missile round pack support, and guided-missile launching system support.

$8.2 million in USN FY 2014 R&D, operations, and Deutsche Marine funding is committed immediately. Work will be performed in Tucson, AZ, and is expected to be complete by September 2014 (N00024-10-C-5432).

FY 2013

German multi-year order; Block 2 goes from tests to fleet firing; SeaRAM may now equip both LCS types. USN LPD 23 & 24
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Sept 10/13: SeaRAM. A $136.2 million contract to overhaul and upgrade 19 MK 15 Phalanx systems, and produce 4 new SeaRAM systems. This contract provides purchases for the U.S. Navy (80%), Japan (15%), the US Army (4%) and Pakistan (1%) under the foreign military sales (FMS) program; and all funds are committed immediately. $55 million will expire at the end of the current fiscal year, on Sept 30/13.

Another $94.8 million in options exist for a FY 2014 buy of 12 more Phalanx upgrades, and another 4 SeaRAM systems, to bring the total contract to $231 million.

Work will be performed in Louisville, KY (26%); Anaheim, CA (16%); Melbourne, FL (11%); Dayton, OH (11%); Syracuse, NY (10%); McKinney, TX (5%); Andover, MA (5%); Bloomington, MN (5%); Radford, VA (5%); Salt Lake City, UT (3%); and Tucson, AZ (3%), and is expected to be complete by September 2017. This contract was not competitively procured in accordance with FAR 6.302-1(a)(2)(iii) “one responsible supplier” provisions (N00024-13-C-5406). Sources: Pentagon | Raytheon Sept 11/13 release.

Aug 6/13: Block 2. The US Navy has completed the first RAM Block 2 fleet firing with a pair of tests from USS Arlington [LPD 24] and the Navy’s Self Defense Test Ship. The missiles went 4/4 against sub-sonic and supersonic maneuvering targets. The USN intends to achieve Initial Operational Capability in 2014. Raytheon, Aug 6/13 release.

July 25/13: LCS standardization? During House Armed Service Committee hearings on the Littoral Combat Ship, Assistant Secretary of the Navy Sean J. Stackley says that the Navy is strongly considering standardizing both ship classes on the SeaRAM configuration. The Freedom Class currently uses the full RAM installation, while the Independence Class trimaran uses the SeaRAM system with an integrated radar but fewer missiles. HASC video.

F219 w. RAM
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March 28/13: Germany. The German government places a $343.6 million contract with Raytheon’s partner RAMSYS GmbH in Ottobrunn, Germany for 445 RIM-116 Block 2 All-Up-Round missiles between now and January 2019, to insert into their MK-44 Mod 4 RAM Guided Missile Round Packs. As one might expect, the Germans use RAM missiles on several of their ship classes. $1.3 million is committed immediately.

Work will be performed in Tucson, AZ (49.7%); Ottobrunn, Germany (42.7%); Rocket Center, WVA (4.5%); and Andover, MA (3.1%). This contract was not competitively procured (N00024-13-C-5459). See also Raytheon.

German multi-year order

Dec 20/12: USA FY 2013. A $45.6 million firm-fixed-price FY 2013 option for 61 Rolling Airframe Missile Block 2 (MK-44 Mod 4) guided-missile round pack all-up-round missiles. All contract funds are committed immediately.

Work will be performed in Tucson, ArZ (49.7%), Ottobrunn, Germany (42.7%), Rocket Center, WVA (4.5%), and Andover, MA (3.1%), and is expected to be complete by February 2015 (N00024-12-C-5450).

Dec 14/12: Ship sets. Raytheon in Tucson, AZ receives a $12.3 million firm-fixed-price contract modification for 4 refurbished and upgraded Rolling Airframe Missile MK 49 Mod 3 guided-missile launch systems and associated hardware. These 21-missile launch packs will equip the San Antonio Class LPD 27 John P. Murtha (2 systems), and the Freedom Class ships LCS 9 and LCS 11 (1 each). All funds are committed on award, and there are options for 4 additional launch systems.

At the time of award, a $5.5 million option is also exercised for 2 remanufactured MK 49 launch packs, with Mod 3 updates and associated hardware. They’ll equip the Freedom Class ships LCS 13 and LCS 15.

Work will be performed in Tucson, AZ, and is expected to be complete by December 2015. This contract was not competitively procured pursuant to 10 U.S.C. 2304c1 (N00024-11-C-5448).

Nov 27/12: Support. Raytheon in Tucson, AZ receives a $12 million cost-plus-fixed-fee contract modification to exercise an option for FY 2013 Design Agent Engineering Services for MK-31 RAM support services, providing maintenance and resolving issues through design, software maintenance, and engineering.

Work will be performed in Tucson, AZ, and will run until September 2013. $44,800 will be obligated at the time of award (N00024-10-C-5432).

Nov 9/12: Support. An $11.3 million contract modification exercises the FY 2013 option for MK-31 design agent engineering services. Work will be performed in Tucson, AZ and is expected to be complete by September 2013 (N00024-10-C-5432).

Oct 22/12: Test. Raytheon announces that its RAM Block 2 has successfully completed its 3rd guided test vehicle flight, using production-representative hardware, in a 2 missile salvo. The engagement resulted in a direct hit on the target.

“Raytheon was awarded a low-rate production contract this year calling for 51 RAM Block 2 missiles. The company is scheduled to deliver 25 [RIM-116] Block 2 missiles during the integrated testing phase of this program.”

FY 2012

Business as usual. RIM-116 Block 2
(click to view full)

July 30/12: FY 2012. A $51.7 million firm-fixed-price contract for 51 MK-44 Mod 4 Rolling Airframe Missile (RAM) Block 2 guided missile round pack all-up-rounds. In other words, the missiles and storage/interface tubes that fit into the launchers.

Work will be performed in Tucson, AZ (49.7%); Ottobrunn, Germany (42.7%); Rocket City, WVA (4.5%); and Andover, MA (3.1%), and is expected to be complete by September 2014. This contract includes options which could bring the cumulative value of this contract to $105.8 million, and presumably about 105 missiles.

This contract was not competitively procured (N00024-12-C-5450).

May 17/12: Ship sets. Raytheon in Tucson, AZ receives a $57.9 million contract modification, covering FY 2012 requirements for MK 15 Phalanx Close-In Weapon Systems (CIWS). It includes MK 15 Mod 31 CIWS SeaRAM missile upgrade kits and conversions in support of Austal’s forthcoming LCS 10 and 12; as well as Phalanx Block 1B BL2 upgrade kits and conversions, 2 Phalanx Block 1Bs for the forthcoming DDG 116 destroyer, MK 15 CIWS hardware product improvements and ancillary equipment, Block 1B Ordalt (Ordnance Alternation) kits; and MK 15 CIWS Block 1B Class A overhauls.

Work will be performed in Louisville, KY (39%); Germany (12%); Palm Bay, FL (12%); Tucson, AZ (9%); Pittsburgh, PA (8%); Burlington, VT (6%); Andover, MA (4%); Syracuse, NY (4%); Long Beach, CA (1%); Radford, VA (1%); Bloomington, MN (1%); Salt Lake City, UT (1%); Norcross, GA (1%); and New Albany, IN (1%); and is expected to be complete by September 2015. $24.2 million will expire at the end of the current fiscal year, on Sept 30/12 (N00024-10-C-5427).

Jan 19/12: Support. A $30 million cost-plus-fixed-fee contract modification for the MK-31 RAM system’s FY 2012 design agent engineering services. they’ll work to maintain current system capability, as well as resolve issues through design, systems, software maintenance, reliability, maintainability, quality assurance and logistics engineering.

Work will be performed in Tucson, AZ, and is expected to be complete by September 2012. $342,272 will expire at the end of the current fiscal year (N00024-10-C-5432).

Dec 6/11: FY 2012. A $22.2 million contract modification for the production of 50 Block 1 MK-44 Mod 2 Rolling Airframe Missile (RAM) guided missile round pack all-up-rounds.

Work will be performed in Tucson, AZ (49.7%); Ottobrunn, Germany (42.7%); Rocket City, WVA (4.5%); and Andover, MA (3.1%), and is expected to be complete by February 2014 (N00024-08-C-5401).

FY 2010 – 2011

US orders; Major UAE order; Block 2 initial integration & tests. UAE’s Baynunah Class
(click to view full)

Sept 15/11: Block 2 tests. Raytheon and Germany’s RAMSYS announce that they have finished RAM Block 2 missile upgrade and integration testing in the 5 control test vehicle flights, meeting all upgrade requirements. They’re not done yet, however. The program will begin guided flight tests at the end of 2011, and is expected to enter low rate production in late 2012.

Aug 25/11: Ship sets. A not-to-exceed $161 million contract modification to previously awarded contract for MK15 Mod 31 SeaRAM systems in support of Independence Class ships LCS 6 Jackson and LCS 8 Montgomery, and Japan’s “DDH 2405 helicopter destroyer.” It will also buy Phalanx CIWS Block 1B class “A” overhauls, and land-based Phalanx Weapon System class “A” overhauls.

Japan’s “DDH-2405″ may be the first ship of Japan’s new “22DH” project to field 800 foot, 30,000t vessels that are larger than its existing 18,000t Hyuga Class. The Hyuga Class are properly characterized as LPH helicopter carriers, and 22DHs could be classed as escort carriers, but Japan’s constitution forbids them from owning aircraft carriers. The SH-60 Seahawk helicopters on board JMSDF Hyuga and JMSDF Ise certainly proved themselves in the wake of the 2011 tsunami, which should mute any domestic criticism.

Work will be performed in Louisville, KY (30%); Andover, MA (19%); Tucson, AZ (9%); Germany (7%); Syracuse, NY (7%); Long Beach, CA (6%); Radford, VA (6%); Burlington, VT (6%); Palm Bay, FL (2%); Pittsburgh, PA (2%); Bloomington, MN (2%); Salt Lake City, UT (2%); Norcross, GA (1%); and New Albany, IN (1%). Work is expected to be complete by September 2015, but $90.7 million will expire at the end of the current fiscal year, on Sept 30/11 (N00024-10-C-5427).

Aug 1/11: Ship sets. A $7.4 million contract modification for 3 refurbished and upgraded RAM MK 49 Mod 3 Guided Missile Launch Systems with associated hardware, for use on LHA 7 (unnamed, America Class escort carrier, 2) and LCS 5 (Detroit, Freedom Class Littoral Combat Ship, 1).

Work will be performed in Tucson, AZ, and is expected to be complete by March 2013. Contract funds will not expire at the end of the current fiscal year (N00024-11-C-5448).

June 30/11: FY 2011. A $57.9 million contract modification for 90 Block 1 MK-44 Mod 2 RAM guided-missile round pack all-up-rounds, and 40 ordnance alteration kits. This contract modification includes options, which, if exercised, would bring the cumulative value of this modification to $113 million.

Work will be performed in Tucson, AZ (49.7%); Ottobrunn, Germany (42.7%); Rocket City, WVA (4.5%); and Andover, MA (3.1%); and is expected to be complete by December 2013 (N00024-08-C-5401).

Feb 23/11: UAE. At IDEX 2011, the UAE announces an AED 800.5 million ($218 million) order for Raytheon’s RAM missile systems. The missiles equip the UAE’s new Baynunah-class corvettes, built in country by Abu Dhabi Ship Building (ADSB).

The initial ship of class UAENS Al Hesen was a significant exhibit at the show. Jane’s.

UAE order

Nov 23/10: Block 2 test. Raytheon announces that its RAM Block 2 missile has completed the 4th and final controlled test vehicle flight. This test measured kinematic performance and stability, with attention to the missile’s rocket motor, airframe, control section, and autopilot software. Raytheon will build 25 Block 2 missiles during the design and development test period, and expects a low rate initial production contract to follow.

Oct 29/10: Ship sets. A $17.7 million fixed-price contract for 2 refurbished and upgraded rolling airframe missile (RAM) MK 49 Mod 3 guided missile launch systems (GMLS) with associated hardware. They’ll be mounted on the USA’s LPD 26, a San Antonio Class large amphibious ship. The contract also involves 1 new MK 49 Mod 3 system, which will be mounted on Egypt’s new Ambassador III Class fast missile craft. Note that the MK 49 needs to add the MK 44 guided missile round pack to become a fully effective MK 31 RAM missile system.

This contract combines purchases for the U.S. Navy (37.1%) and the government of Egypt (62.9%) under the Foreign Military Sales program. It includes options which could bring the cumulative value of this contract to $32.8 million. Work will be performed in Tucson, AZ, and is expected to be complete by January 2013. This contract was not competitively procured (N00024-11-C-2404).

July 8/10: Sub-contractors. LaBarge, Inc. announces a $1.2 million contract from Raytheon to provide printed circuit card assemblies for the RAM missile system.

LaBarge already produces a variety of complex wiring harnesses for the system, and will perform this new work at its Tulsa, OK facility. Production is expected to begin in July 2010 and continue through June 2011.

July 2/10: Support. A $44.5 million cost-plus-fixed-fee contract for the MK-31 rolling airframe missile (RAM) guided missile weapon system’s FY 2010 design agent engineering services. The support covers maintenance, and adds design, systems, software maintenance, reliability, maintainability, quality assurance, and logistics engineering services as necessary. The contract includes options which would bring the cumulative value of this contract to $167.3 million, if exercised.

Work will be performed in Tucson, AZ, and is expected to be complete by September 2010. $2.25 million will expire at the end of the current fiscal year, on Sept 30/10. This contract was not competitively procured (N00024-10-C-5432).

May 24/10: LCS. Raytheon announces that its SeaRAM system successfully completed 2 blast test missile launches aboard the USS Independence [LCS 2], designed to test the structural integrity of both the weapon system and the ship. The launches clear the way for SeaRAM’s live-fire testing on that Littoral Combat Ship class later in 2010.

SeaRAM cuts the number of available missile pack rounds from 21 to 11, but marries the RAM launcher to the 20mm Mk15 Phalanx’s base structure and engagement radar, in order to create a truly bolt-on air defense option for ships. In the Independence Class, the system is also integrated into the ship’s wider combat system.

May 21/10: Block 2. A $10.8 million contract modification to increase the ceiling amount to previously awarded contract, for the “rebaselining of the system design and development” of the RAM Block 2 upgrade. Work will be performed in Tucson, AZ, and is expected to be complete by December 2011.

According to Raytheon representatives, what’s really happening is an extension of the program’s schedule, as well as about a year’s worth of added work from Navy requests. The net effect is to more or less restore the requirements that the program began with 4 years ago, with some changes in light of subsequent tests. Raytheon has now run 3 control test vehicle launches, with 1 to go. Guided test launches will be next, with Navy testing expected to begin with about 25 Design-Test/ Operational-Test missiles in Q1 2012 (N00024-07-C-5454).

RAM Block 2 rebaselined

March 23/10: Testing. A Germany Navy video shows an exercise held off the Cape of Good Hope, whose stormy seas keep the area clear enough to allow live missile tests. The video shows AS.34 Kormoran anti-ship missiles being intercepted by older RIM-7 SeaSparrow missiles… but the RAM system on F215 Brandenburg misses the target drone.

Missed

Oct 16/09: Block 2. A $7.7 million modification to previously awarded contract to increase the ceiling amount for System Design and Development of the RAM Block 2 upgrade. The funds will cover additional guidance section design verification testing, to ensure that the software interfaces properly with the missile’s hardware guidance section. Work will be performed in Tucson, AZ and is expected to be complete by August 2011 (N00024-07-C-5454).

FY 2008 – 2009

Orders: USA, Egypt. SeaRAM firing
(click to view full)

July 20/09: SeaRAM. A $16.8 million modification to a previously awarded contract for 2 more MK 15 Mod 31 CIWS SeaRAM weapon systems, ancillary equipment, spares, and support. Unlike the Mk 44 launchers, SeaRAM systems have only 11 missiles in the launcher, in order to fit within the self-contained Mk 15 Phalanx mounting.

Work will be performed in Louisville, KY (33%); Tucson, AZ (8%); Andover, MA (6%); Pittsburgh, PA (4%); Mechanicsville, MD (3%); Fort Defiance, AZ (3%); Bloomington, MN (2%); Santa Clara, CA (2%); Munich, Germany (37%); and Athens, Greece (2%), and is expected to be complete by September 2011. Contract funds in the amount of $9.2 million will expire at the end of the current fiscal year (N00024-07-C-5444).

June 8/09: FY 2009. A $56.4 million modification to previously awarded contract for the production of 90 Block 1 MK-44 Mod 2 rolling airframe missile (RAM) guided missile round pack (GMRP) all-up-rounds (AURs), and 40 ordnance alteration kits. This contract modification includes options which would bring the cumulative value of this modification to $118 million, if exercised.

GMRPs are the 21-round missile launchers used by the RAM system, and 90 GMRP AURs is the standard annual American order. The total FY 2009 RAM missile budget is $70.8 million.

Work will be performed in Tucson, AZ (49.7%); Ottobrunn, Germany (42.7%); Rocket City, WVA (4.5%); and Andover, MA (3.1%), and is expected to be complete by December 2011 (N00024-08-C-5401).

Jan 16/09: Ship sets. Raytheon in Tucson, AZ receives an $18.8 million contract modification buy 4 of their Mk 49 MOD 3 Guided Missile Launcher Systems (GMLS), which hold the full 21-missile Mk 44 packs. The Mk 49 systems will be installed on the amphibious assault ship LPD 25 Arlington, and the first-of-class CVN 78 Gerald R. Ford aircraft carrier. Another 10 ORDALT (ORDnance ALTeration) Mod 1 to Mod 3 GMLS Ordalt Kits will also be provided as part of this order, and will be used to upgrade a number of Mk49 systems around the fleet.

Work will be performed in Ottobrunn, Germany (50%), Louisville, KY (45%) and Tucson, AZ (5%) and is expected to be complete by February 2012 (N00024-06-C-5402).

Oct 15/08: Sub-contractors. BAE Systems spinoff Atlantic Inertial Systems (AIS) announces a production order from Diehl BGT Defence GmbH worth about $3 million for the second batch of its SiARS Micro-Electro Mechanical Systems (MEMS) Inertial Measurement Unit (IMU). The order follows AIS’ successful completion of design, qualification and initial production deliveries.

IMU systems offer a way to precisely measure distance and vector from a known launch point, without requiring GPS or external aids that may not be available. MEMS technology helps this IMU perform that job reliably in a violently spinning missile like RAM.

AIS has been involved in the RAM program for a number of years, and their release says they anticipate receiving annual production orders into the next decade. The firm has facilities in Cheshire CT, USA, and in Plymouth, UK, employing over 800 personnel worldwide.

June 11/08: FY 2008. A $59.5 million contract for the production of 90 Block 1 MK-44 Mod 2 Rolling Airframe Missile (RAM) Guided Missile Round Pack All-Up-Rounds, and 60 ORDALT(ORDnance ALTeration, usually means upgrades) Kits.

Work will be performed in Tucson, AZ (49.7%), Ottobrunn, Germany (42.7%), Rocket City, WVA (4.5%), and Andover, MA (3.1%) and is expected to be complete by May 2011. (N00024-08-C-5401).

Dec 31/07: Egypt. Egypt’s order comes in – see Sept 28/07, as Raytheon receives $72.5 million modification to previously awarded contract for 139 Block 1 MK-44, Mod 2 Rolling Airframe Missile (RAM) Guided Missile Round Pack (GMRP) All-Up-Rounds.

Work will be performed in Ottobrunn, Germany (49%), Tucson, AZ (44%), Rocket City, WVA (6%), and Andover, MA (1%), and is expected to be complete by January 2011. This modification supports the Republic of Egypt (100%) under the Foreign Military Sales Program (N00024-04-C-5456).

Egypt

FY 2006 – 2007

Orders: USA, UAE, South Korea; Export requests: Egypt; RIM-116 Block 2 development contract; Shingo Prize for the factory; SeaRAM picked for LCS-2 trimarans. RIM-116 RAM Launch

Sept 28/07: The US DSCA announces [PDF format] Egypt’s formal request for up to 139 RIM-116B Block 1A Rolling Airframe Missiles (RAM) with MK-44 Guided Missile Round Packs, containers, support equipment, spare and repair parts, publications and technical data, maintenance, personnel training and training equipment, U.S. Government, contractor engineering and logistics technical support services, and other related elements of logistics support. The systems will be installed on Egypt’s new Ambassador MK III Fast Missile Craft [PDF format] boats for air defense, along with the 20mm Mk 15 Phalanx CIWS. See also Feb 10/06 entry.

The total value, if all options are exercised, could be as high as $125 million. The prime contractor will be Raytheon Systems Corporation in Tucson, AZ. There are no offset agreements associated with this potential sale, and implementation will not require the assignment of any additional U. S. Government or contractor personnel in country.

DSCA request: Egypt (139)

Aug 15/07: LCS. A $5.8 million firm-fixed-price modification under previously awarded contract for the fabrication, test, and delivery of one (1) MK 15 MOD 31 PHALANX SeaRAM Close-In weapon System (CIWS). As noted above, the SeaRAM uses the Phalanx system’s integrated radar, and will equip the USA’s Littoral Combat Ships. Work will be performed in Louisville, KY, and is expected to be complete by September 2009 (N00024-04-C-5460).

June 5/07: Raytheon announces a contract for 7 RAM Block 1A systems with Abu Dhabi Ship Building of the United Arab Emirates. The direct commercial sale, valued at $76.5 million, calls for the systems to be delivered starting in December 2007, and installed on 6
of the UAE’s new 70m Baynunah Class corvettes. The agreement also provides for an on-shore Rolling Airframe Missile test and training system, spares support and other services. Raytheon release.

The RAM system was not originally slated to equip the UAE’s new corvettes, but in 2006 the UAE decided that escalating regional tensions and anti-ship missile proliferation required improved inner layer defenses. The system will be mounted near the ship’s rear, atop the helicopter hangar. Outer defense will be handled by Raytheon’s RIM-162 Evolved Sea Sparrow Missiles fired from Mk56 vertical launchers, while last-ditch defense will rely on the corvette’s Oto Melara 76mm naval gun and 30mm secondary guns.

RAM backfit for UAE

May 24/07: Support. Raytheon Co. in Tucson, AZ received an $11.6 million cost-plus-fixed-fee contract for 70,590 engineering man-hour design agent engineering services for the MK-31 Rolling Airframe Missile (RAM) guided missile weapon system, and associated efforts. Work will be performed in Tucson, AZ and is expected to be complete by September 2007.

Support procured under this contract is required to maintain current weapon system capability, as well as resolve issues through design, systems, software maintenance, reliability, maintainability, quality assurance and logistics engineering services. The contract was not competitively procured by The Naval Sea Systems Command in Washington, DC (N00024-07-C-5443).

May 8/07: Block 2. Raytheon Missile Systems in Tucson, AZ received a $105.5 million cost-plus scheduled event-based incentive-fee contract for system design and development of the Block 2 upgrade to the RAM MK31 Guided Missile Weapon System, in support of the Program Executive Office-Integrated Weapon Systems. “The Block 2 upgrade will enable the RAM missile to more effectively counter the emerging threat of more maneuverable anti-ship missiles.” Details regarding the Block 2 upgrade are given in the RAM System section.

Work will be performed in Tucson, AZ and is expected to be complete by December 2010. The contract was not competitively procured by the Naval Sea Systems Command in Washington, DC (N00024-07-C-5454).

See also Raytheon’s June 27/07 release, which announces the contract as “$145.4 million… for production and enhancement of its Rolling Airframe Missile program. Nearly $105.5 million will go to the development of Rolling Airframe Missile Block 2…”

RAM Block 2 development

March 6/07: FY 2007. Raytheon Company in Tucson, AZ received a $39.9 million firm-fixed-price modification to previously awarded contract (N00024-04-C-5456) for production of 90 Block 1 MK 44 Mod 2 Rolling Airframe Missile (RAM) Guided Missile Round Packs, and 90 MK 20 Mod 2 RAM Active Optical Target Detectors. This represents the full FY 2007 request.

Work will be performed in Tucson, AZ (50%) and Ottobrunn, Germany (50%), and is expected to be complete by March 2009. The Naval Sea System Command in Washington, DC issued the contract.

Feb 8/07: Shingo Prize. Raytheon Missile Systems’ (RMS) Louisville, KY facility has captured a prestigious Shingo Prize for Excellence in Manufacturing, marking the 4th consecutive year that various Raytheon facilities have won. The Louisville facility manufactures the Phalanx CIWS and RAM/SeaRAM systems. See full DID coverage.

April 11/06: South Korea. Raytheon announces a $17.4 million contract for production 30 RAM Block 1/HAS (helicopter, aircraft, surface) tactical guided missile round packs and test equipment design maintenance for the South Korean RAM program.

RAM Block 1/HAS is the ship self-defense weapon of choice for the country’s KDX II, or Chungmugong Yi Sunshin Class destroyers. Note that the KDX-IIs will also use longer range Standard SM-2 Block IIA missiles as part of their surface-air missile armament.

Raytheon reports that they also have contracts to supply launchers for South Korea’s future KDX III AEGIS destroyers and LPX Dodoko Class amphibious assault ships.

South Korea

April 4/06: RAM on LCS. Raytheon Company has announces that it will install the SeaRAM anti-ship missile defense weapon system on General Dynamics’ trimaran design for the Littoral Combat Ship (LCS). SeaRAM combines upgraded MK 15 Phalanx Block 1B close in weapon system’s radar & infrared sensors and Rolling Airframe Missile (RAM) Block 1A Helicopter, Aircraft, and Surface (HAS) guided missiles. Raytheon will work with General Dynamics to integrate SeaRAM with the LCS combat management system.

RAM for LCS-2 Class

April 3/06: FY 2006. Raytheon Co. in Tucson, AZ received a $77 million firm-fixed-price modification to previously awarded contract for production of 90 Rolling Airframe Missile (RAM) Block 1/HAS MK-44, Mod 3 all-up-round tactical guided missile round packs (GMRP). This is the USA’s full procurement amount for FY 2006, similar to the 86 GMRP requested in FY 2005 and the 90 missiles in the FY 2007 budget request. This contract also covers 120 RAM Block 1/HAS MK-44, Mod 3 ordnance alteration (ORDALT) kits.

Work will be performed in Tucson, AZ (50%) and Ottobrunn, Germany (50%), and is expected to be complete by March 2009 (N00024-04-C-5456).

Feb 10/06: Egypt. Raytheon announces that the Egyptian navy will outfit its new Ambassador III Class Fast Missile Craft with Rolling Airframe Missile (RAM) launching systems. Raytheon’s Mk49 RAM launchers and associated RAM Block 1A missiles will provide the primary ship self-defense capability for the Fast Missile Craft, built by VT Halter Marine in Gulfport, MS.

Approximately 50% of the production work will be performed at Raytheon Missile System facilities in Louisville, KY and Tucson, AZ with the remaining half to be completed by RAM-System GmbH of Ottobrunn, Germany.

Egypt picks RAM for FACs

Additional Readings

• Raytheon – Rolling Airframe Missile (RAM) Guided Missile System.

• Raytheon – SeaRAM Anti-Ship Missile Defense System.

The US Navy has successfully secured initial operational capability (IOC) for the Block 2 rolling airframe missile (RAM) aboard the San Antonio-class amphibious transport dock ship USS Arlington (LPD 24).

The US Navy has successfully carried out the test of electromagnetic aircraft launch system (EMALS) aboard the aircraft carrier pre-commissioning unit (PCU) Gerald R Ford (CVN 78).

According to some sources, the evasive MH-X may have taken part in the raid that killed Islamic State member Abu Sayyaf.

In the night between May 15 and 16, U.S. Special Operations forces killed ISIS high level operative Abu Sayyaf, in a daring raid that took place in eastern Syria.

Little is known about the raid.

According to the CNN, the operation was conducted by U.S. Army’s Delta Force, which was carried to a residential building in Deir Ezzor, to the southeasth of Raqqa, by Army Blackhawk helicopters and Air Force CV-22 Osprey tilt-rotor aircraft.

It’s pretty obvious many other assets were actually involved in the raid, including support assets providing electronic support to the intruding choppers and drones, as happened during Operation Neptune’s Spear, for the killing of Osama Bin Laden.

The presence of some Air Force Special Operations Command Ospreys during a raid against ISIS is not a first.

U.S. Osprey tilt-rotor aircraft probably based in Kuwait have already conducted missions in Syria and Iraq: on Jul. 3, 2014, some V-22 aircraft were used to carry Delta Force commandos to a campsite in eastern Syria where ISIS militants were believed to hold American and other hostages (that had been moved by the time the commandos attacked the site).

On Aug. 13, 2014, V-22s deployed military advisers, Marines and Special Forces on Mount Sinjar to coordinate the evacuation of Yazidi refugees.

What could really be a “first” is the possible involvement of the Stealth Black Hawk helicopter exposed by the raid in Abbottabad, Pakistan, back in 2011.

For the moment it’s just a hypothesis, but Homeland Security suggests that the Delta Force team were transported deep into ISIS-held territory “via presumably stealth equipped Black Hawk helicopters” of the 160th Special Operations Aviation Regiment (Airborne) “Night Stalkers”.

The U.S. Army special ops force provides support for both general purpose and special operations forces. They fly MH-47G Chinooks, MH-60L/K/DAP Black Hawks, A/MH-6M Little Birds, MH-X Silent Hawks (the latter is an unconfirmed designation for the Stealth Black Hawk), maybe stealthy Little Birds and stealthy Chinooks, as well as MQ-1C Gray Eagle drones.

160th SOAR’s Black Hawk helicopters presence in the region was first unveiled after an unspecified variant belonging to the U.S. Army took part in an unsuccessful raid to free captured American journalist James Foley and other captives from ISIS in eastern Syria in August 2014.

Even though American aircraft have already demonstrated their ability to operate completely undisturbed well inside the Syrian airspace, we can’t rule out the possibility that the Pentagon, as done in 2011 when the time to kill Bin Laden arrived, considered the importance of the most recent raid against the senior ISIS leader and the failure of at least a couple previous raids, decided to commit the most advanced and secret Black Hawk helicopter to the delicate mission against Abu Sayyaf: the stealth variant.

 

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“Pooling and Sharing” may soon apply to the Aerial Refueling capability.

As we reported it at the end of last year, Poland, the Netherlands and Norway are willing to acquire shared aerial refueling capabilities. According to the information obtained by Polish media outlet defence24.pl, Poland’s share in the program is 22 percent, proportional to the flight hours allocated to the Polish Air Force.

In his interview for defence24, Jacek Sońta, spokesperson for the Polish Ministry of Defense stated that the request for proposal is about to be sent to the contractor – the Airbus company, which will provide the Airbus A330 MRTT (Multi Role Tanker Transport) aircraft – by the OCCAR agency (Organisation Conjointe de Coopération en Matière D’armement – Organization for joint cooperation within the field of armament), part of EDA (European Defense Agency), on behalf of the program member states.

Analysts highlighted that the tanker fleet spending is not contained within the Polish MoD’s “Technical Modernization Plan,” however, the Polish F-16 fighter jets are already using the refueling services provided to them by RNlAF (Royal Netherlands Air Force) and it is quite likely that the budget allocated to the AAR (air-to-air refueling) missions will be shifted to the program led by the EDA.

According to the report published by Aviation Week, ultimately up to four A330 MRTTs are going to be used for carrying out the refueling tasks. The basic plan assumes that the tankers are to reach the operational capabilities by 2019, and the program itself is to begin in mid-2020. The relevant agreement is scheduled to be signed next year, according to the information provided by the Polish MoD.

What is more, Aviation Week sheds some light on the operational details pertaining the joint aerial refueling initiative: the fleet of tankers is going to be based at the Eindhoven Air Base, even though the program assumes that forward operating locations will be established within the territories of the program participants. Airbus is going to provide the A330 tankers with both the flying boom, as well as the hose-and-drogue refueling systems.

One of the air bases in Poland that is probably going to host the tankers is Powidz AB, home for the Polish Air Force’s fleet of the Hercules transport aircraft, and equipped with a sufficiently long runway. So far it has accommodated large aircraft such as the E-4B, the AWACS, and more recently – the USAF A-10 deployment, which was a part of the Theater Security Package deployed to Europe, in the light of the Ukrainian Crisis.

Aviation Week also duly notes that the initiative is going to constitute a replacement for the Dutch KC-10 tankers, while in case of Norway it is going to seriously bolster the F-35 program. In case of Norway and Poland, utilizing the tanker would be a novelty. The whole program stems from the fact that, so far, the European air forces were relying on the US air refueling assets during training as well as real operations (like in Libya or the Balkans). Thus, a new, independent tanker program would provide the Europeans with a higher degree of independence.

The formal procedures related to the multinational use of the aerial-refueling capabilities are yet to be created.

Notably, the Airbus’s aircraft could also be used for multi-role transport operations and support several different duties, including the deployments of land forces abroad.

Image credit: © Commonwealth of Australia 2015

 

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• This photo of X-47B combat drone taking fuel from tanker proves we are one step closer to unmanned aerial refueling
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An interesting infographic provides some detail about the two TSPs in Europe.

12 A-10s belonging to the first Air Force Theater Security Package and 12 F-15s of the first ANG  TSP (theater security package) are currently deployed in eastern Europe in support of Operation Atlantic Resolve.

Both TSPs will operate from bases across the Old Continent for about 6 months to augment U.S. Air Force in Europe support to Operation Atlantic Resolve, and reassure regional allies.

The following infographic provides some additional detail about the activities conducted by the TSPs so far (actually, until May 11).

 

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Americas

• The Air Force has launched a tender for the launch of a next-generation Global Positioning System satellite, releasing a RFP for the launch vehicle production, mission integration and launch operations. The latest Lockheed Martin GPS-III satellite was recently announced as being ready for system testing.

• The Pentagon is set to award $4 billion in contracts for modernization of the RQ-4 Global Hawk over the next five years, with the program funded to 2020. The program recently achieved milestone C, a key requirement for the platform to progress with modernization efforts.

• Raytheon has been awarded another contract for the Tactical Boost Guide program, with DARPA exercising a $19.5 million option, bringing the total value of Raytheon’s contract with the agency to $24,390,645. The TBG program seeks to develop air-launched tactical range hypersonic boost glide systems, with DARPA working in conjunction with the Air Force.

Europe

• Norway has requested 200 AIM-9X Block II missiles. The potential $345 million deal will likely see the missiles equip the Royal Norwegian Air Force’s (RNoAF) fleet of F-16s. The Norwegians helped develop the IRIS-T missile as part of a German-led multinational program, with this missile supposedly meant to replace the AIM-9 missiles in service with many NATO countries.

• The Spanish Air Force has taken over the investigation of the crashed A400M, which came down outside Seville. The government initially tasked civilians from the Defense and Transport Ministries to investigate, however that responsibility has passed to the Spanish Air Force’s CITAAM investigative body.

Middle East

• China is offering to sell Jordan armed UAVs, according to a California Republican. The Obama administration denied Jordanian requests for MQ-1 Predators last October.

Asia

• The State Department has approved a possible sale of 48 UGM-84L Harpoon Block II anti-ship missiles to Japan. The submarine-launched Block II version of the missile is designed to improve the missile’s ability to attack targets in congested littoral environments, where nearby land masses and other ships can provide cover for targets. The Foreign Military Sale would be worth $199 million, with the missiles manufactured by Boeing. The company is meanwhile offering the latest version of the missile – known as the Harpoon Next-Gen – to the US Navy.

• India has cleared three defense procurement deals worth a total value of $3.8 billion, media reported Thursday. These include 145 M777 howitzers through a government-to-government Foreign Military Sale with the US, with Indian firms set to provide maintenance and ammunition.

• The government also cleared the procurement of Russian Ka 226T light utility helicopters, following the restart of the program’s procurement process in March. The helicopters will be manufactured in India.

• Airbus and TATA have teamed to supply the Indian Air Force with new transport aircraft, edging out home side HAL in the process. The partners will supply 56 C-295 transporters, with that particular deal worth $1.89 billion. Forty of the planes will be manufactured in India, with the remainder purchased in ready-to-fly condition.

• The Indian Defence Acquisition Council also cleared the construction of India’s second domestically-manufactured aircraft carrier, to supplement the INS Vikrant currently under construction in Cochin Shipyard. The ship will be called the INS Vishal (Giant). In a further boost for the Indian Navy, the DAC cleared the procurement of six indigenously-developed BrahMos missile systems, with these set to equip Talwar and Delhi class ships.

• L-3 has been selected to supply the Australian Defence Force (ADF) with SATCOM terminals, according to a company press release. The $81.8 million contract, awarded by prime contractor Raytheon as part of Joint Project 2008 Phase 5B1, will enable more ADF units to connect to the Wideband Global SATCOM network, with this latest contract a follow-on to a similar 2013 contract to supply 51 Very Small Aperture Terminals (VSATs). This latest contract will see the firm supply 236 VSATs, with these split between the company’s Hawkeye and Panther systems.

Today’s Video

• The 155mm M777, soon to be in the hands of the Indian Army…

RQ-4A Global Hawk
(click to view full)

Northrop Grumman’s RQ-4 Global Hawk UAV has established a dominant position in the High Altitude/ Long Endurance UAV market. While they are not cheap, they are uniquely capable. During Operation Iraqi Freedom (OIF), the system flew only 5% of the US Air Force’s high altitude reconnaissance sorties, but accounted for more than 55% of the time-sensitive targeting imagery generated to support strike missions. The RQ-4 Global Hawk was also a leading contender in the Broad Area Maritime Surveillance (BAMS) UAV competition, and eventually won.

The Global Hawk Maritime Demonstration Program (GHM-D or BAMS-D) aims to use the proven RQ-4 Global Hawk airframe as a test bed for operational concepts and technologies that will eventually find their way into BAMS, and contribute valuable understanding to the new field of maritime surveillance with high-flying UAVs. It’s not just a test program, however, as its remaining drones also deploy to assist the fleet in active operations.

Contracts and Key Events BAMS-D to Pax River
click for video

All contracts are managed by The Naval Air Systems Command in Patuxent River, MD. The US military lists Northrop Grumman Corp. Integrated Systems, Western Region in San Diego, CA as the contractor, which is technically true. While that was the original contract, NGC Integrated Systems was combined with NGC Space Technology to form Northrop Grumman Aerospace Systems in January, 2009.

FY 2015

Increasing ops tempo.

May 15/15: The Pentagon is set to award $4 billion in contracts for modernization of the RQ-4 Global Hawk over the next five years, with the program funded to 2020. The program recently achieved milestone C, a key requirement for the platform to progress with modernization efforts.

May 6/15: The RQ-4 Global Hawk unmanned aerial vehicle has been given milestone C approval from the Defense Acquisition Executive. The Global Hawk demonstrated interoperability and software maturity prior to milestone C, with the program fully funded throughout the Future Years Defense Program.

Feb 4/15: Northrop Grumman starts production on four units to go to South Korea. In late 2014 the Republic of Korea awarded Northrop Grumman a contract for four RQ-4s, including two ground stations and various support equipment. This is the first Pacific sale for the Global Hawk under the Foreign Military Sales process. RQ-4s are already being procured by Australia and Japan.

FY 2013 – 2014

Increasing ops tempo. RQ-4A Global Hawk
click to play video

June 13/14: FY 2014. Northrop Grumman System Corp. in San Diego, CA receives a $61.3 million cost-plus-fixed-fee contract modification for BAMS-D operations and maintenance services: logistics support; field service representatives; and organization, intermediate, and depot-level maintenance. That’s a significant increase, compared to past years, but the Navy has been clear about their intent to raise operational tempo (q.v. Sept 6/13).

All funds are committed immediately, using US Navy FY 2014 O&M budgets. Work will be performed in Patuxent River, MD (70%); outside continental United States (25%); and Rancho Bernardo, CA (5%), and is expected to be complete in June 2015. US NAVAIR in Patuxent River, MD manages the contract (N00019-12-C-0117).

Jan 23/14: The BAMS-D fleet hits 10,000 flying hours supporting missions in the Middle East. It has been helpful during movements of carrier and amphibious groups, and has reached its goal of 15 missions per month (q.v. Sept 6/13). Sources: NGC, “Northrop Grumman-Built Maritime Surveillance Demonstrator Unmanned Aircraft Surpasses 10,000 Combat Flying Hours”.

Sept 6/13: More missions. A maximum $10 million cost-plus-fixed-fee contract modification for additional BAMS-D/ GHMD operations and maintenance services. The goal is to increase BAMS-D operational tempo from the current 9 maritime intelligence, surveillance, and reconnaissance missions per month to a sustained level of 15 missions per month. That will require more people to handle maintenance and operations, rather than more UAVs. $3 million is committed immediately.

Work will be performed in Patuxent River, MD (70%), and outside continental United States (30%), and is expected to be complete in May 2014 (N00019-12-C-0117).

Aug 21/13: FY 2013. A $27.6 million cost-plus-fixed-fee contract modification, exercising an option for this year’s BAMS-D operations and maintenance services. All funds are committed immediately, and expire at the end of the fiscal year on Sept 30/13.

Work will be performed in Patuxent River, MD (70%), and outside the continental United States (30%), and is expected to be complete in May 2014 (N00019-12-C-0117).

Dec 18/12: Northrop Grumman Aerospace Systems in Bethpage, NY receives a $7.2 million cost-plus-award-fee contract modification to support new Airborne Recorder certification requirements for BAMS-D. The change was forced by an NSA Information Assurance Security and Requirements Directive.

Work will be performed in Anaheim, CA (75%); Bethpage, NY (20%); and San Diego, CA (5%), and is expected to be complete in December 2013. Funding will be committed as needed (N00019-08-C-0023).

FY 2011 – 2012

Crash. BAMS-D crash
click for video

Aug 29/12: FY 2012. Northrop Grumman in San Diego, CA receives a $40.1 million cost-plus-fixed-fee contract for continued operations and maintenance services in support of the Broad Area Maritime Surveillance – Demonstrator Unmanned Aircraft System, also known as the Global Hawk Maritime – Demonstrator.

Work will be performed in Patuxent River, MD (70%) and outside the continental US (30%), and will run until August 2013. All contract funds will expire at the end of the current fiscal year, on Sept 30/12. This contract was not competitively procured pursuant to FAR 6.302-1 (N00019-12-C-0117).

June 11/12: Crash. An RQ-4A BAMS-D Global Hawk crashes into a marshy tributary of Maryland’s Nanticoke River, during a routine training flight from Naval Air Station Patuxent River. There were no injuries to civilians and no property damage, but the crash site has been blocked to recreational boat traffic while the agency investigates.

The crash leaves 4 UAVs in the program: 3 for testing, tactics, and doctrine development in the USA, and 1 deployed abroad with the 5th fleet. CNN | Wired Danger Room | WBOC.

Crash

Aug 23/11: FY 2011. A $35.6 million cost-plus-fixed-fee contract modification, exercise an option for another year of operations and maintenance services in support of the U.S. Navy Global Hawk Maritime Demonstration.

Work will be performed in Patuxent River, MD (75%), and outside the United States (25%), and is expected to be complete in September 2012. All contract funds will expire at the end of the current fiscal year, on Sept 30/11 (N00019-10-C-0018).

FY 2009 – 2010

Deployments. MP-RTIP radar. Global Hawk Cutaway
(click to view full)

July 23/10: FY 2010. Northrop Grumman Aerospace Sector in San Diego, CA receives a $29.7 million cost-plus-fixed-fee contract to provide operations and maintenance services for the U.S. Navy’s Global Hawk Maritime Demonstration.

Work will be performed outside the U.S. (50%); and in Patuxent River, MD (30%); and San Diego, CA (20%), and is expected to be complete in August 2010. All contract funds will expire at the end of the current fiscal year, on Sept 30/10. This contract was not competitively procured pursuant to FAR 6.302-1.

July 15/10: A $5.5 million contract modification for software development to test maritime surveillance and maritime imaging modes for the MP-RTIP radar. At this time, all funds have been committed by the Electronic Systems Center at Hanscom Air Force Base, MA (F-19628-00-C-0100; P00209).

The Northrop Grumman/Raytheon MP-RTIP is a 1.5 x 4 foot active, electronically scanned array (AESA) radar designed to provide better resolution than current ground-viewing systems. It will equip new Global Hawk Block 40s, but at the moment, it’s experiencing software challenges with “concurrent” mode, where the radar tracks moving targets (GTMI) while maintaining a high-resolution synthetic aperture radar (SAR) mapping scan. See also Aviation Week.

Oct 1/09: Deployment. One of the U.S. Navy’s 2 RQ-4 GHMD/ BAMS-D UAVs returns from service with Task Force 57, which operates in the Persian Gulf, Red Sea, Gulf of Oman and North Arabian Sea. The UAV conducted operational “field tests” that included over 60 flights over land and sea areas, and over 1,000 hours in the air, providing images to Task Force 57 in near real-time. The BAMS-D UAV was operated by navy personnel back in the United States at Patuxent River Naval Air Station, MD.

A team from Commander Patrol and Reconnaissance Wing 2, Commander Patrol and Reconnaissance Wing 5, NAVAIR, and Northrop Grumman Corporation conducted the deployment. A forward-deployed contingent of Northrop Grumman personnel, under oversight of Patrol Wings 2 and 5, provided maintenance for the aircraft, while working closely with counterparts on the USAF’s Global Hawk maintenance team.

The Navy’s 2nd BAMS-D UAV has now been sent overseas to continue field testing, while the returning aircraft returning aircraft undergoes depot-level maintenance and conducts other tests closer to home. US Navy NAVAIR, Oct 20/09 | StrategyPage.

Aug 17/09: Inside the Navy reports that the US Navy plans to use the GHMD in support of anti-piracy operations near Somalia, but satellite communication and control issues will need to be resolved first.

July 15/09: FY 2009. A $26.6 million modification to a previously awarded cost-plus-fixed-fee contract (N00019-05-C-0057) for additional operations and maintenance support for the Global Hawk Maritime Demonstration (GHMD) Program.

Work will be performed in San Diego, CA, and is expected to be complete in August 2010. All contract funds will expire at the end of the current fiscal year, on Sept 30/09.

April 23/09: FY 2009. An $8.7 million modification to a previously awarded cost plus fixed fee contract (N00019-05-C-0057) to provide additional operations and maintenance support for the Global Hawk Maritime Demonstration (GHMD).

Work will be performed in Patuxent River, MD (90%) and San Diego, CA (10%), and is expected to be complete in November 2009. All contract funds will expire at the end of the current fiscal year.

March 24/09: Deployment. The Navy’s 1st unmanned Broad Area Maritime Surveillance Demonstrator “Global Hawk” Unmanned Aerial Vehicle lands in the 5th Fleet’s Area of Responsibility, completing its 17th successful operational mission. The UAV was flown by Commander, Patrol and Reconnaissance Wing FIVE and other P-3 aviators via a satellite link from a mission control station located at Naval Air Station Patuxent River, MD. Source [PDF].

Feb 4/09: Deployment. Reports indicate that one of the Global Hawk Maritime Demonstration UAVs has deployed to CENTCOM’s theater of operations by the US Navy. Information Dissemination believes that its future will include pirate tracking off of Africa’s eastern coast. GHMD is a limited program that is both a predecessor to BAMS, and a way to experiment and learn how an advanced maritime patrol UAV can be used in real world operations (CONOPS).

Dec 23/08: Recognition. Northrop Grumman announces that US Navy’s Air Test and Evaluation Squadron (VX-20) gave the RQ-4 Global Hawk Maritime Demonstration (GHMD) team its Q2 2008 Test Team of the Quarter award. To date, the 2 GHMD demonstrator aircraft have flown more than 1,350 hours.

The team’s accomplishments included performing more than 1,000 hours of flight operations over an 18-month period, troubleshooting issues with the communications system, integrating the automatic identification system into the aircraft so it can be used in civilian air space, conducting tests with the ocean surveillance initiative, and developing tactics and guidelines for unmanned patrol systems. From January to June 2008, the team also supported various operational activities, including the Southeastern Anti-Submarine Warfare Initiative 08-2, the USS Iwo Jima Group Sail, and the Commander Carrier Strike Group 8. The team’s successes during this period culminated with the Trident Warrior exercise in June 2008, when the team flew more than 113 hours over a 5-week period, including an unplanned 23-hour humanitarian mission in which a GHMD was re-tasked to assist in the Northern California wildfires. July saw the UAVs participate in the Rim of the Pacific 2008 fleet exercise, which saw the team finish 4 missions totaling more than 92 hours.

Nov 10/08: Training. The USAF discusses some of the logistics involved. A cadre of USAF RQ-4 pilots from the 1st Reconnaissance Squadron at Beale AFB, CA are teaching a class of 3 active-duty P-3 Orion pilots and one civilian contractor how to fly the Global Hawk. Navy officials are looking to the Air Force to assist in expediting their pending RQ-4 Global Hawk deployment, one reason the normally 5-month course is being condensed to 4.

FY 2003 – 2008

GHM-D EMD . BAMS victory. P-8A MMA Concept
(click to view full)

Sept 18/08: FY 2008. A $12.6 million modification to a previously awarded cost-plus fixed fee contract (N00019-05-C-0057) for operations and maintenance support for the Global Hawk Maritime Demonstration (GHMD), including operation and sustainment, logistics support and sustaining engineering throughout the demonstration.

Work will be performed in Patuxent River, MD (90%) and San Diego, CA (10%), and is expected to be complete in September 2009. All contract funds will expire at the end of the current fiscal year.

April 22/08: BAMS. Northrop Grumman Corp. Integrated Systems in Bethpage, NY wins a cost-plus-award-fee contract with an estimated value of $1.16 billion for the BAMS System Development and Demonstration (SDD) phase, which will create the MQ-4N Triton UAV companion to the P-8A Poseidon. The award later prevails over protests from the losing coalition of Lockheed Martin and General Atomics.

See DID’s BAMS FOCUS article for more.

RQ-4 wins BAMS

Dec 19/07: FY 2008. A $12.1 million modification to a previously awarded cost-plus-fixed-fee contract (N00019-05-C-0057) for operations and maintenance support for the Global Hawk Maritime Demonstration (GHMD), including operation and sustainment, logistics support and sustaining engineering throughout the demonstration.

Work will be performed in Patuxent River, MD (90%) and San Diego, CA (10%), and is expected to be complete in December 2008. Contract funds in the amount of $4.6 million will expire at the end of the current fiscal year.

April 30/07: FY 2007. A $7.7 million modification to a previously awarded cost-plus-fixed-fee contract (N00019-05-C-0057) for operations and maintenance support for the Global Hawk Maritime Demonstration (GHMD), including operation and sustainment, logistics support and sustaining engineering throughout the demonstration.

Work will be performed in Patuxent River, MD (90%) and San Diego, CA (10%), and is expected to be complete in December 2007. Contract funds in the amount of $4.1 million will expire at the end of the current fiscal year.

Nov 30/05: FY 2006. $10.5 million ceiling-priced modification to a previously awarded cost-plus-fixed-fee contract (N00019-05-C-0057). It exercises an option for operations and maintenance support of the Global Hawk Maritime Demonstration (GHMD), including operation and sustainment, logistics support and sustaining engineering throughout the demonstration. Work will be performed in San Diego, CA (79%) and Patuxent River, MD (21%), and is expected to be complete in November 2006.

Sept 20/05: Support. $27.1 million not-to-exceed delivery order against a previously issued basic ordering agreement (N00019-05-G-0009) for the procurement of initial spares in support of the Global Hawk Maritime Demonstration Program. Work on this contract will be performed in San Diego, CA (46%); El Segundo, CA (28%); Salt Lake City, UT (19%); Indianapolis, IN (4%); and Falls Church, VA (3%); and is expected to be complete in September 2007.

Oct 6/05: 1st flight. The first RQ-4A Global Hawk UAV slated for the Navy’s GHMD program made its first flight from Palmdale, CA, to Edward’s Air Force Base, CA. US Navy.

May 2/03: R&D. Raytheon Co. in Falls Church, VA receives a $5 million not-to-exceed order against a previously awarded basic ordering agreement N00019-02-G-0350 for requirements development and initial design of the Block 3 Global Hawk Maritime Demonstration (GHMD) data control processor, data link controls and payload processing. The contract also includes preparation of an engineering plan to integrate this system into existing ships. The TCS will provide a single unmanned aerial vehicle (UAV) mission planning, command and control, data processing and dissemination system for operation of a whole range of UAV types. Work will be performed in Falls Church, VA (80%), and Rancho Bernardo, CA (20%), and is expected to be complete in December 2003.

Feb 5/03: EMD. $185.2 million cost-plus-award-fee using an undefinitized-contract-action contract modification. Provides for engineering and manufacturing development activities in support of the Global Hawk Maritime Demonstration.

Further funds will be obligated as individual delivery orders are issued, and work will be complete by September 2006 (F33657-01-C-4600, P00020).

GHM-D EMD contract

Additional Readings

• Northrop Grumman – Global Hawk Logistics Services.

• DII FOCUS – Kicking it Up a Notch: Poseidon’s Unmanned BAMS Companion.

• DII FOCUS – P-8 Poseidon MMA: Long-Range Maritime Patrol, and More. A Boeing 737 derivative.

• DID – UAV Data Management.

• DID (Aug 24/05) – Follow-Up: Rear Adm. Michael L. Holmes on The USA’s P-3C Force. Indicated that a significant portion of the P-3 Orion and EP-3 Aries’ roles would fall to the BAMS UAV.

• DID (June 13/05) – $230.5M in Contracts to Keep P-3 Fleet Flying. Stopgap replacements could be required sooner, rather than later.

The new blogsite is under construction
Please see the older blog entries here

The projection ship ordered by Turkey will based on the Spain LHD ship Juan Carlos 1 (built by the Spanish shipyard Navantia) which also serve as the base of 2 futurs Australian Canberra-class landing helicopter dock (LHD) HMAS Canberra and HMAS Adelaide.

In 2004, French company Direction des Constructions Navales (DCN) and Spanish company Navantia were invited to tender proposals, with DCN offering the Mistral-class amphibious assault ship and Navantia proposing the "Buque de Proyección Estratégica" design (later commissioned as Juan Carlos I). The Spanish design was selected in 2007, with Navantia responsible for construction of the ships from the keel to the flight deck, and BAE Systems Australia handling the fabrication of the superstructure and fitting out.
The construction of the first ship, HMAS Canberra, commenced in late 2008, with the hull launched in early 2011, and sea trials in early 2014. Canberra was commissioned in November 2014. Work on the second vessel, HMAS Adelaide, started in early 2010. Adelaide is predicted to enter service in 2016. They are the largest vessels ever operated by the RAN, with a displacement of 27,500 tonnes (27,100 long tons; 30,300 short tons).

The French Mistral class is an Amphibious general assault ship (LHA) that means an Amphibious general assault ship with flush deck and dock for amphibious craft. Tarawa Class ships (US Navy) are an other example. The Spanish Amphibious Assault-Ship, Multi-purpose (LHD) Juan Carlos 1 is identical to the LHA but with a capacity to lead maritime space control operations and force projection missions using ASW helicopters and V/STOL aircraft. Other examples of these type are the Wasp (US Navy).

This Turkish decision is a bad news for the French shipyard DCNS unable the deliver Sevastopol and Vladivostok Mistral class BPC ordered by Russia, due to political reason (EU embargo) and after the loss of the Australian tender France can lost the confidence of others futur potential customers.

The Taleban attack on a Kabul guesthouse which killed 15 people (not 14, as earlier reports said) on 13 May 2015 was aimed, the Taleban claimed, at “invaders”, specifically an “important meeting” of “important people from many invading countries, especially Americans.” In this update of our earlier dispatch, AAN’s Kate Clark identifies all the dead: all were civilian and eight were aid workers, five, Afghans from the regions who had been visiting Kabul for training. Even by the Taleban’s own crude metrics of nationality apparently denoting ‘targetability’, she says just two of the dead came from NATO member states. Moreover, once again, she says, the Taleban have breached the distinction between military and civilian, seemingly branding all foreigners as ‘invaders’. Along with biographical details of all those killed, she pays tribute to one of them in particular, a friend of AAN’s, the former director of the Afghanistan Research and Evaluation Unit (AREU), Paula Kantor, who was a serious-minded, generous researcher and mentor who carried out important work on reducing poverty in Afghanistan.

 (Originally published 14 May; updated 18 May 2015.)

15 people, all civilians, were killed when the Taleban attacked the Park Palace Hotel in central Kabul on the night of 13 May 2015. It is a mid-range hotel, where many foreigners, largely Indians and Pakistanis, but also Westerners stay or live. Most tend to be aid workers, researchers and journalists; those with more money or who feel particularly under threat usually stay at the far more expensive Serena. On Wednesday night, the Park Palace was hosting Afghan classical musician Ustad Eltaf Hussein (1) and the concert had drawn many Afghan and foreign music lovers. The police believe the attack was pre-planned since the gunman/men (the number is disputed; the Taleban say one, Afghan security forces say three) did not need to force their entrance with explosives or by killing guards, but appear to have been inside the hotel beforehand.

By nationality, those killed were: Afghan (six, including a joint British-Afghan national), Indian (four), Pakistani (two) American (one), Italian (one) and Kazakh (one).

The number of foreigners killed and wounded made this an unusual attack, as the vast majority of those killed in the conflict continue to be Afghans (both civilian and military). Last year, on average across the country, 29 civilians were killed or injured as a result of the war every day (UNAMA figures; see also AAN analysis). However, that average is likely to increase this year, given that the violence has already intensified. UNAMA reported the number of civilian casualties during the first four months of 2015 as 16 per cent higher than in the same period in 2014. There was virtually no ‘winter lull’ this year, except in the Afghan capital which had been enjoying an unusually quiet few months after a particularly violent autumn and early winter. A number of explanations have been supplied for this – that it was partially linked to President Ashraf Ghani’s decision to ‘take the gloves off’ with regard to night raids by NDS and Afghan Special Forces (Karzai had largely banned these), and partially to the president’s demands that Pakistan put greater pressure on the Taleban to, among other things, cease all suicide and complex attacks in the capital.

Then came two suicide attacks on shuttle buses ferrying workers to and from the Attorney General’s Office, first on 4 May and then on 10 May 2015, which, together, killed seven civilians and injured dozens more. And now the attack on a cultural event at a hotel. (2) The lull is certainly over. The end of the calm raises questions about Pakistan’s intent and influence over those sending attackers and suicide bombers into the Afghan capital. It condemned the attack, which came a day after a visit of Prime Minister Nawaz Sharif; he had assured Afghanistan of Islamabad’s full support in its battle against the Taleban, saying, “the enemies of Afghanistan cannot be the friends of Pakistan.”

The attack also raises questions about Taleban intentions this year.

The Taleban’s ‘spring offensive’ statement, issued on 11 April 2015, reads as if, after years of being lambasted for attacking civilians, the movement was finally trying harder to protect them.

… top priority will be given to safeguard and protect the lives and properties of the civilian people; and those Mujahidin who are negligent and careless in preserving the lives and properties of the civilian people and their operations result in the civilian losses or casualties, will be panelized according to Jihadi and Sharia rules and regulations. Similarly, consisting with its policies, the Islamic Emirate has never and will never target religious and other educational institutions like mosques, madrassas, schools, universities, health centers like clinics and hospitals, public buildings and other projects of public welfare. [English as original]

However, both the Taleban attacks on prosecutors and judges, and the assault on the Park Palace Hotel, represented major breaches of international law which prohibits attacks on civilians. Despite their talk, the Taleban continue to fail to abide by the Geneva Conventions, which demand the protection of non-combatants. Instead, the Taleban divide people into those they deem to be with the government, whether military or civilian, and those who are not. It is only the latter which they call ‘civilians.’ In their eyes that makes, for example, prosecutors ‘fair game.’ (UNAMA, quoted earlier, noted on 10 May, that there had, by that point in 2015, been 11 separate attacks against legal professionals and court houses, causing in total 114 civilian casualties (28 killed and 86 injured) this year so far – “an increase of more than 600 per cent from the same period last year.”)

Taleban justifications of the Park Palace attack

The Taleban’s repeated use of the word ‘invaders’ as an apparent synonym for ‘foreigner’ in their claim of responsibility for the Park Palace attack (read a translation at the end of this dispatch) also reads like a deliberate attempt to blur the distinction between military and civilian.

… the mujahed managed to… attack a meeting attended by over 100 invaders.

… an important meeting attended by important people from many invading countries, especially Americans…

The enemies…were holding night-time parties consisting promiscuity and indulgence as well as other important meetings.

Among the dead, there are a number of important/senior people from the invading countries…

The invading countries should understand that they will not stay safe from our attacks at any place and under any cover as long as they fail to withdraw their troops from our country and recognize our sovereignty. … (3) 

Following this statement, some people pressed the Taleban on whether they now considered foreign humanitarian workers as legitimate targets. Here was one exchange with Abdul Qahar Balkhi who tweets for the Taleban (all English as per the original)  in which it looked like they were backing off from their initial hard-line messaging:

Abdulqahar Balkhi: Every foreigner from invading country especially @NATO is considered an invader, we don’t classify any as civilian

@SwoopOuttaOrbit: So even if i was on a humanitarian mission For instance as a doctor in a hospital then i would be your enemy?

@Abdulqahar Balkhi: Any Muslim/non-Muslim not part of @NATO alliance working for humanitarian cause is not considered invader

@Abdulqahar Balkhi: there are proper procedures in place for humanitarian orgs to contribute positively in Afghanistan

Balkhi made another response, to Amnesty International which had condemned what it called an “atrocious attack,” the Taleban’s “contempt for human life” and a “surge” in their targeting of civilians:

@Abdulqahar Balkhi: Reaction: #amnestyinternational accusations about civ/cas baseless, foreign nationals working for invaders not civ.

@Abdulqahar Balkhi: US & their hirelings deliberately target Ulama, madaris, homes & civilians daily; these same organizations have elected absolute silence

In other words, there was both a denial that the dead were civilians and a counter-accusation, that the US and Afghan government forces regularly kill Afghan civilians.

The main claim came 12 hours after the attack started – a long delay by Taleban standard. Apart from the Twitter comments, there has been only one other statement, an article published on the Taleban’s al-Emara (‘the Emirate’) Pashto website. Reporting only the confirmation of the Indian and American casualties, it still insisted the attack had been against “invaders,” but now emphasized the ‘moral decay’ of the concert, saying it had been organised by the Ministry of Foreign Affairs and had involved ‘scandal’ and ‘obscenity.’

Conflating civilian and military

Whatever justifications the Taleban try to make, from the list of those killed below, it is clear just how far away they were from being the “important invaders” claimed by the movement. Of the 15 dead – 11 men and three women – eight were aid workers, (4) five of them Afghan nationals who had travelled in from the regions for training. Three others worked in finance, three others as consultants in energy, infrastructure  or in an unspecified sector. The last was a visiting spouse.

The place which was targeted was also at odds with the Taleban’s portrayal of it. A mid-range hotel, its guests were mostly Indians and Pakistanis, along with Westerners and Afghans from the provinces; these were professional people with access to limited budgets and little reason, they thought, to fear a Taleban attack. If they had had more money or felt themselves to be more obvious targets, they would have been staying elsewhere.

Did the Taleban just make a mistake in their estimation of the worthiness of Park Palace as an important target? (UNODC used to be based there; when they did, there were indeed more stringent security measures. However, it has also not previously been linked to the ‘invasion’.)

Or was the Park Palace just a place which the Taleban could attack easily and hope to net victims who could be held up afterwards as “the targets”?

Or was this actually intended as an attack on foreigners linked to NATO countries? We wrote earlier that in the killing of someone like Paula Kantor the inherent racism of viewing all foreigners or Westerners as ‘invaders’ became clear, in that her suitability as a target in Taleban eyes apparently had nothing to do with who she was or what she did, but only that she was a westerner. However, even here the gunman/men apparently failed to distinguish among potential victims according to the crude metrics of a foreigner/Westerner being an enemy, given that Afghans and those from the region were not spared (Pakistani, Indian and Kazakh). One of the victims, for example, according to two eye-witnesses who spoke to AAN, was an older ‘local-looking’ man with a long grey and white beard wearing shalwar kamiz. Did the gunman/men expect more Westerners and then just kill whomever they found?

As AAN wrote after the attack on the Lebanese restaurant in Kabul in January 2014, we have seen the Taleban crossing the red line of targeting foreign civilians before. And we have seen them trying to justify this before (see, for instance, their response to AAN’s piece on the Taverna attack). We have also seen them pulling back. This time the Taleban’s language is again worrying and many will be watching to see whether their targeting ‘guidelines’ have indeed changed. The fear is that the paucity of foreign military targets (the vast majority of the international military are in non-combat roles advising at senior levels; they are not in the field, except for some United States special forces) may make the softer foreign civilian targets more attractive. Many people, anyway, will already be sceptical of the Taleban’s assertions on Twitter that humanitarians are not targets, given the sheer number of aid workers among those killed.

If there was a shift in the Taleban’s targeting, this would put a large part of the international humanitarian and aid effort under threat, with potentially grave consequences to vulnerable Afghans (50 per cent of whom live beneath the poverty line). The irony would be that those affected would include NGOs who, out of principle, have always distanced themselves from the western military and who have often been in the country for decades, including during the Taleban regime.

15 dead, all civilians, all individuals, among them Paula Kantor

Before giving a longer obituary of Paula Kantor the former director of the other leading Kabul-based research organisation, AREU, who was a colleague and friend of AAN’s, we present what is known of the other victims. Many of the Afghan families did not want the identities of their kin released, possibly for privacy reasons, familiar to grieving families everywhere, possibly also because of the fear of repercussion. We have respected this.

The Afghans

Two Afghans working for the NGO Action Aid, 27-year old Muhammad Muhammadi and 36-year old Dr Jawed Ahmad Sahai, were killed. They were both working in Balkh and had come to Kabul for training on watershed management and water harvesting. A colleague, Andrew Wieteacha, told Vice News he was close to both and described how he would periodically travel to the provinces with Sahai:

It would be Sahai’s stories about his family, including anecdotes of his 4-year-old daughter, that Wieteacha would miss most, he said. “He was more than a hard worker, more than a dedicated humanitarian,…he was also a father and a husband. His family was paramount to him.”

Wieteacha said Muhammadi had always been listening to other people, “It was his patience and kindness that made [him] so easy to work with.” Other colleagues, describing how he had risen within the ranks at Action Aid, told Vice News of his “innate ability to win the respect of everyone from senior colleagues, high-powered political officials and even local elders.” 

The families of three other Afghans working for another NGO, the Aga Khan Foundation, who were killed in the attack did not want their identities revealed. A colleague said the two men and one woman, who were “of a variety of ages, young and old” were normally based in Takhar working on the Foundation’s human and institutional development programme. Like the Afghan Aid staff, they had been in Kabul for training.

A British Afghan who had been working for the British Council was also killed at Park Palace. His family also did not want his details released.

The Indians

Dr Martha Farrell (1959-2015) was a director of the NGO, Participatory Research in Asia (PRIA), which she and her husband had founded in 1982 to promote citizens’ participation in democratic government. In a professional career lasting more than 30 years, she had worked in India and abroad in the fields of education, research and policy advocacy, especially on gender and women’s rights. She had been in Kabul to train staff from the Aga Khan Foundation and was killed along with three of her trainees. There were strong tributes for Martha from former colleagues:

Dr Martha Farrell was a dear friend, popular colleague and a great support to others. She has always championed the causes of poor and marginalized. She lived and sacrificed her life for gender equality and women empowerment.

(from the PRIA website)

Martha was a strong woman, always very focussed and determined. She was a great trainer, she was instrumental in mainstreaming gender in PRIA, and she always raised gender issues in all discourses. Martha was passionate about her work.

(a message posted at Sahayi – Centre for Collective Learning and Action; see here)

Dr Farrell is survived by her husband and two children.

Two other Indians were auditors at the same firm. Rajesh Kumar Bhatti, who was 64 and from Chandigarh, had retired as a Senior Deputy Accountant General of Punjab in 2011 and, his son said, had been planning to finish his assignment in Kabul and return home next month: “I spoke to him yesterday, and he seemed excited about his coming trip to the US. He had booked the flight tickets and was going to stay with my younger brother there.” (5) His colleague, George Mathew from Ernakulam in Kochi, had called his family during the attack saying he was fine and hiding. Later, when they called back, there was no response.

The fourth Indian to be killed, Dr Satish Chandra, was described as a “technical consultant”

The Pakistanis

Pakistan lost two nationals in the attack: Ismail Awan, an adviser with an Afghan power supply company who was from Sargodha in Punjab, and Abdul Sattar, a finance manager in an Afghan construction company who was from Charsadda district in Khyber Pakhtunkhwa.

The Italian and Kazakh

Aigerim Abdulayeva, 27 years old and from Kazakhstan (parents from Taraz but they had migrated to the capital), was killed along with her husband, Alessandro Abati, who was 48 and from Lombardy in Italy. They had met in Kazakhstan and married there before moving to Milan where Abdulayeva was studying for a degree in fashion design. It seems, from the Italian press, that they had been planning a second marriage ceremony in Italy in July. It reported that Abati had been a consultant for infrastructure projects and had worked extensively in Eastern Europe, the Middle East and Central Asia. According to the Italian Foreign Minister, Paolo Gentiloni, he had been working most recently “as a consultant to an agency that promotes investment in Afghanistan.” His parents, said the press, were “shut up in pain; [they] preferred not to comment.”

The American

Dr Paula Kantor, was a dedicated and meticulous researcher who spent five years working in Afghanistan, first as senior researcher and then director of AREU (2005-2010). She had been in Kabul for a few days, the first time in five years, very excited to be starting a new project looking at women and wheat-growing in Afghanistan, Pakistan and Ethiopia for the Islamabad-based International Maize and Wheat Improvement Centre, the world’s leading centre for research, development and training for these two essential staple crops. Four months ago, she had been appointed as its senior scientist working on gender and development. Typically, for Paula’s work, the new project was aimed at helping the poorest and most vulnerable.

Previously, Paula had worked at the WorldFish Centre, the International Centre for Research on Women and at the Universities of East Anglia and Wisconsin-Madison. With a BA in Economics from the University of Pennsylvania, an MA in Gender and Development from the University of Sussex and a PhD in city and regional planning from the University of North Carolina, she brought a formidable skill-set to her work in Afghanistan.

More importantly, however, she brought a commitment to positive social change through policy research. Behind her often self-deprecating front were firm and steadfast views on the importance and relevance of research and the need to uphold high standards. She was pro-active and energetic in seeking out new ideas and opportunities for research that would make a difference in improving people’s lives, especially in the areas of child labour, women, livelihoods, and migration. “She was focused on her work,” one former colleague said, “yet with staff, she was always generous with her time.” Her output at AREU was prolific (6), but she was also crucial for training up a new generation of Afghan researchers and was always a strong advocate for defining a meaningful career path for them.

She remained hopeful for Afghanistan as she made clear on the eve of the London conference in 2010 when Afghan and international leaders met to discuss ‘progress’ in Afghanistan:

“If the international community listens as much as it speaks, and if it responds genuinely to Afghan needs and priorities, then the shoots of hope, already present, can grow.” 

Billions of dollars have been spent on aid in Afghanistan and yet there is still an overwhelming need for the kind of research which Paula carried out and mentored others in doing: thoughtful, passionate, practical and committed, seeking to understand the intricacies of the Afghan social and economic systems that keep people thriving, oppressed or just alive.

 

(1) Ustad Eltaf Hussain is the son of Ustad Muhammad Hussain Sarahang. He was born in Kabul in 1955 and learned classical music from both his grandfather, Ustad Ghulam Hussain Khan, and father. He was also trained by Ustad Amanat Ali Khan and Nusrat Fateh Ali Khan of Pakistan.

(2) Most recently, the Taleban’s 17 May suicide attack against a EUPOL convoy (a civilian target, although one which the Taleban consider military) next to the Kabul airport was bound to hurt civilians; indeed, two teenage girls were killed, along with a British security guard working with EUPOL.

(3) A hint that the Taleban might be about to widen their targeting had already come in their spring offensive statement: “the occupation has not ceased in political, cultural, educational, propaganda and other aspects.”

(4) Quoting Acbar, we earlier reported seven aid workers killed. However, the British Afghan had also been working on a development project.

(5) The Indian press reported that two of the Indians had been working with the UN, but UNAMA has confirmed to AAN that none of the dead had been “working with nor was contracted to any UN entity.”

(6) A list of Paula Kantor’s publications at AREU (some co-authored) are:

Create More Quality Jobs with Regular Pay to Improve Livelihoods and Political Stability, May 2007, with Stefan Schütte

Target Assistance to Families with the Least Access to Diverse, Better-Paying Jobs, May 2007, with Stefan Schütte 

Microcredit, Informal Credit and Rural Livelihoods: A Village Case Study in Kabul Province, November 2007, with Erna Anderson 

Microcredit, Informal Credit and Rural Livelihoods: A Village Case Study in Bamiyan, April 2008, with Erna Anderson

Factors Influencing Decisions to Use Child Labour: A Case Study of Poor Households in Kabul, April 2008, with Anastasiya Hozyaninva

Focusing ANDS Implementation on Pro-Poor Outcomes: Workshop Proceedings, 23 February 2009, with Sayed Mohammad Shah

Delivering on Poverty Reduction: Focusing ANDS Implementation on Pro-Poor Outcomes, February 2009, with Adam Pain

From Access to Impact: Microcredit and Rural Livelihoods in Afghanistan, June 2009

Child Labour in Afghanistan: ACBAR Presentation Notes, November 2009

Building a Viable Microfinance Sector in Afghanistan, January 2010, with Erna Anderson

Speaking from the Evidence: Governance, Justice and Development—Policy Notes for the 2010 Kabul Conference, May 2010, with Anna Larson, Deborah J Smith, Emily Winterbotham, Jay Lamey and Rebecca Roberts

Improving Efforts to Achieve Equitable Growth and Reduce Poverty, April 2010

Afghanistan Livelihood Trajectories: Evidence from Faryab, September 2010, with Zarah Batul Nezami

Poverty in Afghan Policy: Enhancing Solutions through Better Defining the Problem, November 2010, with Adam Pain

Securing Life and Livelihoods in Rural Afghanistan: The Role of Social Relationships, December 2010, with Adam Pain

Understanding and Addressing Context in Afghanistan: How Villages Differ and Why, December 2010, with Adam Pain

Running out of Options: Tracing Rural Afghan Livelihoods, January 2011, with Adam Pain

Beyond the Market: Can the AREDP transform Afghanistan’s rural nonfarm economy? February 2011, with Adam Pain

ANNEX: The Taleban’s statement on the Park Palace attack (AAN translation from the Pashto text)

Fedai Attack on Meeting Related to Occupiers Killed and Wounded Dozens of Occupiers Last Night in Kabul

Last night at 9 pm during the Azm operation, a self-sacrificing [fedai] mujahid, Muhammad Idris hailing from Logar province, using a special tactic, carried out [a series of] attacks on Park Palace guesthouse in Taimani area of Kabul city. The mujahid, who had a pistol, a Kalashnikov, a huge amount of explosives, a [suicide] vest and hand grenades, managed to breach the perimeters of the guesthouse and attack a meeting attended by over 100 invaders.

The attack which lasted until late last night was designed carefully; an important meeting attended by important people from many invading countries, especially Americans, was in progress as the attack happened.

Such attacks had previously happened in Wazir Akbar Khan and Shahr-e Naw which resulted in severe casualties for the enemy. The enemies have now [after the two previous areas turned insecure] moved to this area [Taimai] where they were holding night-time parties consisting of promiscuity and indulgence as well as other important meetings.

The mujahedin had followed the enemies carefully and knew about the timing of the meeting precisely. The fedai mujahid managed to cross all the security blockades safely and arrived in the hall [where the meeting was taking place]. According to information, more than 100 people were present in the meeting, half of whom were either killed or wounded in the attack.

Among the dead are a number of senior people from the invading countries; the media and the enemies will perhaps keep silent over that.

Rumours suggesting that the attack was carried out by three people are inaccurate; only one person carried out the attack.

The invading countries should understand that they will not stay safe from our attacks at any place and under any cover as long as they fail to withdraw their troops from our country and recognize our sovereignty. 

Bombers and ISR (Intelligence Surveillance Reconnaissance) aircraft head towards the Pacific.

It looks like the U.S. Air Force is planning to deploy some strategic bombers and surveillance aircraft in Australia to put some pressure on China amid South China Sea tensions.

The South China Sea is the subject of several territorial claims. China claims sovereignty on some island chains and  waters that are within the 200 nautical miles exclusive economic zone of Brunei, Malaysia, the Philippines, Taiwan and Vietnam

This year, China has started building an airstrip on the disputed Spratly Islands in the South China Sea  waters claimed by the Philippines.

According to FP, the Defense Department’s Assistant Secretary for Asian and Pacific Security Affairs David Shear, during testimony before the Senate Foreign Relations Committee on May 13, said that along with moving U.S. Marines and Army units around the region, the Pentagon will deploy air assets in Australia, “including B-1 bombers and surveillance aircraft.”

The U.S. Air Force ISR aircraft, possibly unmanned Global Hawk drones, will monitor activities around the disputed islands, whereas the “Bone” heavy bombers will serve as a deterrent to challenge Beijing aggressive ownership claims.

U.S. strategic bombers have already been temporarily deployed to Australia, to take part in exercises with the Royal Australian Air Force, in 2012 and at the end of 2014 as a consequence of a joint Force Posture Initiative signed in 2011 to train together to face threats in the Pacific.

Actually, U.S. aircraft don’t really need to deploy to Australia to put pressure on China: Air Force Global Strike Command’s bombers, including B-52s and B-2s, routinely operate from Andersen Air Force Base, in Guam, strategically located 1,800 miles (about 2,900 km) to the east of China. And they can even launch round-trip strike missions from their bases located in the Continental U.S.

According to Xinhuanet, China cautioned the U.S. against taking any actions in the region, urging Washington “not to take any risks or make any provocations so as to maintain regional peace and stability.”

Image credit: Boeing

 

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GPS IIIA concept
(click to view full)

GPS-III satellites, in conjunction with their companion OCX ground control, system are the Global Positioning System (GPS) future. They offer big advantages over existing GPS-II satellites and GCS, but most of all, they have to work. Disruption or decay of the critical capabilities provided by the USA’s Navstar satellites would cripple both the US military, and many aspects of the global economy.

The time-based GPS service is the most-used application of Einstein’s Theories of Relativity. GPS has become part of civilian life in ways that go go far beyond those handy driving maps, including crop planting, timing services for stock trades, and a key role in credit card processing. At the same time, military class (M-code) GPS guidance can now be found in everything from cruise missiles and various precision-guided bombs, to battlefield rockets and even artillery shells. Combat search and rescue radios rely on this line of communication, and so does a broadening array of individual soldier equipment.

This DII FOCUS article looks at the existing constellation, GPS-III improvements, the program’s structure, its progress through contracts and key milestones, and extensive PTN (Positioning, Timing & Navigation)/ GNSS (Global Navigation Satellite System) research links.

GPS: The Existing Array A GPS primer
click for video

The GPS constellation needs to contain at least 24 evenly spaced satellites, though 27 is preferred to maintain proper global coverage from Medium Earth Orbit. USAF Space Command wants to have at least 30, in order to ensure that a quick series of on-orbit satellite failures, or problems caused by an orbit’s somewhat “dirty” status, don’t drop the constellation below 27. Those failures are possible, as a look at the current constellation demonstrates. At the end of 2012, there were 31 healthy GPS satellites on orbit:

Navstar II concept
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9 Block IIAs. Plus 4 more not in healthy shape, of 19 launched. Intended design life: 7.5 years. Due to good design, redundant components, and clever adjustments, these satellites have lasted significantly longer than that. The record is over 20 years.

12 Block IIRs. Intended design life: 10 years. Launches began in 1997, so some are already beyond that. Adds on-board clock monitoring. 21 GPS IIRs were built by Lockheed Martin, of which 8 were modernized to GPS IIR-M status.

7 upgraded Block IIR-Ms. Each IIR-M satellite includes a modernized antenna panel that provides increased signal power, 2 new military signals for improved accuracy to within 1 meter, enhanced military encryption, flexible power anti-jamming capabilities, and a 2nd civil signal (L2C) that will provide users with an open access signal on a different frequency. The additional signals make a difference, because it allows receivers to see the error created by the Earth’s ionosphere, then use advanced algorithms to refine positioning accuracy.

The 8th and final GPS IIR-M was launched in August 2009, but 2nd of type SVN-49 is “unusable”.

3 GPS-IIF. The next set of satellites are Boeing’s Block IIF. Intended life: 12 years. Their improvements include architecture updates; power, processor, and weight improvements; more accurate atomic clocks, better jamming resistance, and operational capability for a new military signal. On the civil side, there’s a 3rd “safety of life” civil signal (L5) in the aviation protection spectrum, which is expected to enable more widespread use of GPS for civil aviation, air traffic control, and high-precision measurement.

There will eventually be 12 GPS-IIFs in space, if all goes well.

GPS Control Segment
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Ground control: An updated ground control segment known as the Architectural Evolution Plan is also proceeding. On the control side, AEP adds a new Master Control Station at Schriever AFB, CO, and an alternate station at Vandenberg AFB, CA. More ground antennas have been added to control GPS satellites by using USAFSCN remote tracking stations, and monitoring was improved by cooperating with the US National Geospatial-Intelligence Agency’s MS network. With respect to its technical back end, AEP is designed to move control of the constellation off of 1970s-era mainframe computer systems, and onto a modern graphical interface. It will also add a distributed architecture that can run parallel applications, instead of putting everything in a single queue.

AEP first became operational in September 2007, and added the capability to control Block IIF satellites in March 2008. Nevertheless, it’s an interim solution with key limitations. It cannot put a navigation message onto, or control, modernized signals like the civil L2C, or the GPS IIR/M’s dedicated military coded signal. Nor will it be able keep up with growing demands for improved situational awareness and other required evolutions. That’s why it was considered for GPS III control, but rejected.

The GPS III Program

When fully deployed, the current vision for GPS-III is that the new satellites will feature a new L1C civil signal that will be compatible with Europe’s Galileo GNSS constellation; a cross-linked command and control architecture that allows the entire GPS constellation to be updated from a single ground station; and a spot beam antenna that provides resistance to hostile military jamming while improving accuracy and integrity.

The USAF has had issues with over-budget satellite programs in the past, in part because the technology requirements were often leaping ahead on too many fronts at once. This is a natural response to systems with a satellite’s large launch costs and long life cycle, but the lagging launch schedules and liberal cost overruns were becoming limiting. GPS III incorporates these lessons, and will be set up as an incremental acquisition, with a ground segment and 3 blocks of investment and inserts:

GPS Block IIIA. These satellites are larger than previous Navstar buses. Bigger size allows more power, which in turn creates a signal that’s easier to acquire. The wide-angle whole Earth antenna will be supplemented by a high-gain directional antenna, allowing +20db signals (roughly 105x power) to specific areas of the globe. The more sensitive a receiver must be, the easier it is to jam, and the wider the jamming radius at a specific jamming power. Additional satellite power, plus additional signals which offer signal gains of their own, plus a directional antenna boost, really adds up when you’re trying to make the signal robust.

On the civil side of the ledger, signal type gains and increased transmitting power mean something just as consequential: GPS receivers can become cheaper and more reliable. This will be especially true for high-end, high-precision civil GPS, once the new L5 signal is fully deployed.

On the signals front, initial GPS IIIA satellites will feature agreed-upon compatibility withEurope’s rival Galileo GNSS system, add a 4th civil signal (L1C) to the new L1A/ L2C/ L5 roster set; and add a stronger military GPS (m-code) signal that’s expected to deliver fourfold accuracy improvements and 3x-8x improvement in anti-jam capability. These simple requirements ensure that older GPS-IIA satellites can quickly be replaced by the newest proven designs.

The USAF would like to cap GPS IIIA satellites at 8 (2 R&D + 6 operational, all 8 will be launched), but the initial contract has provisions for up to 12 GPS-IIIA satellites if necessary.

GPS Block IIIB. The 2nd generation adds a cross-linked command and control architecture. In English, this means that the entire constellation of GPS IIIB+ satellites will be updated at once from a single ground station, instead of having to wait for each satellite to orbit in view of a ground antenna as is currently the case. These satellites are also expected to carry SAR/GPS, via a Canadian-Provided 406 MHZ Search And Rescue repeater. This used to be called the Distress Alerting Satellite System (DASS); it’s designed to improve combat SAR, and accommodate existing and planned 406 MHz beacons across the globe.

Up to 8 GPS-IIIB satellites are slated for launch.

Einstein? Really?
click for video

GPS Block IIIC. Adds a high-powered spot beam to deliver greater M-Code power, better resistance to hostile jamming, and improved accuracy. Other technologies that become mature during the development period could also be added. The USAF intends to launch up to 16 GPS-IIIC satellites.

The first launch of a GPS-IIIA satellite is expected in 2014, with all 32 GPS Block III satellites expected to be on orbit by 2022.

By 2016, the L2C signal will be aloft on 24 satellites for consistent global coverage: The GPS-IIR-Ms, the launched IIFs, and the 1st 2 GPS-IIIs.

The L5 signal is only aloft in test mode, and will take until around 2019 for global availability. That could happen earlier, or become more robust, depending on Europe’s Galileo program.

The L1C signal will only be aloft on GPS-III, so it’s likely to take until 2021 or later before it’s aloft with full GPS global coverage. L1C has been adopted beyond GPS-III and Galileo, however, which makes global coverage possible at an earlier date if the right configuration of cooperating satellites is aloft.

The new GPS-III M-Code signals won’t have full global coverage until around 2021, either, but directional antennas are likely to give the US military new options in targeted regions earlier than that.

OCX & MGUE: New Ground Control & Receivers Legacy system
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These systems will be accompanied by a next-generation global positioning system control segment (GPS OCX) intended to control both GPS II and GPS III satellites. OCX will deliver new GPS mission planning, constellation management, ground antenna, monitoring station, and satellite command and control capabilities, using open architecture electronics that allow faster improvements, and a service-oriented software architecture for much faster incorporation of its capabilities into other systems. Block I will also incorporate the new M-code military GPS signal.

The previous ground control segment incumbents both joined new bidding teams: Boeing bid as part of Raytheon’s team, while Lockheed Martin joined Northrop Grumman’s team in March 2008. Team Raytheon won the contract in 2010.

Unfortunately, software development has been a challenge, and key blocks will finish late. In response, the GPS directorate funded a stopgap Block 0 “Launch & Checkout” command and control capability, which wouldn’t work with the satellite’s jam-resistant M-code signal, or its 3 new civil signals. Block 0 won’t be an issue for long, though, because technical problems with the satellites themselves delayed initial launch by 2 years

Under the full OCX Block 1 contract, the Ground Control System will handle both existing GPS-II and new GPS-III satelites. Raytheon’s team will develop and deliver control segment hardware at Schriever AFB, CO, and Vandenberg AFB, CA, and update up to 17 monitoring stations around the globe by October 2016. The goal is to reduce the sustainment cost by 27%, then boost those savings to 50% within 3 years. When Block I’s software is done, it will also add the new M-code signal.

OCX Block 2, which will include the new L2C civil signals, has been moved back to June 2017.

DAGR drawn
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Outside OCX, a program called Modernized GPS User Equipment (MGUE) isn’t part of GPS-III directly, but it’s necessary in order to bring GPS III’s advantages to troops in the field. The program includes efforts like the ground-based GPS receiver application module (GB-GRAM-M), and takes advantage of GPS-III changes to the Signal-in-Space. MGUE aims to demonstrate the critical technology needed to incorporate a new M-Code military signal and security architecture, using precision-encrypted Y-code, M-Code, and coarse acquisition-code receivers that can process new and legacy signals.

GPS-III Budgets

Note that launch contracts are a separate item. The USAF is investigating the idea of cutting per-satellite launch costs by finding a way to launch 2 satellites in each boost from SV-5 onward. The question is whether evolving rocket technology and commercial competition will give them that option, without requiring expensive changes to the satellite design.

GPS-III: Industrial (click to view full)

Lockheed Martin’s program management and spacecraft development effort will be centered in Newtown, PA, with final assembly, integration and test located in Denver, CO. Their GPS Processing Facility (GPF) uses a former Atlas rocket assembly building, with nearly 40,000 square feet of spacecraft assembly and test area, including a clean room high bay designed for manufacturing efficiency by minimizing space vehicle lifts and distances between operations. The GPS team studied Lockheed Martin’s high-volume aircraft production lines, and used virtual reality modeling technology to lay out the factory floor. Each GPS III satellite will move through sequential work stations for various assembly and integration operations, much as a car or airplane does, culminating with environmental test procedures. The GPF has dedicated thermal vacuum and anechoic test chambers for that.

Outside Denver, Lockheed’s Sunnyvale, CA operations will provide various spacecraft components, and a launch support team will be based at Cape Canaveral, FL.

GPS-III: Contracts and Key Events FY 2014

Satellites #5 & 6 ordered; GPS-III and OCX reaching final testing stages: SV-1 delay. LMCO on GPS
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May 14/15: The Air Force has launched a tender for the launch of a next-generation Global Positioning System satellite, releasing a RFP for the launch vehicle production, mission integration and launch operations. The latest Lockheed Martin GPS-III satellite was recently announced as being ready for system testing.

May 5/15: The first GPS-III satellite currently under construction by Lockheed Martin is now ready for system testing. The satellite was connected to its propulsion system on Monday and will undergo rigorous testing in coming months. The GPS-III contract covers eight satellites, which will bring improved accuracy and anti-jamming capabilities compared to current systems.

Sept 18/14: SV-1 delay. USAF Space Command officials tell Bloomberg’s Tony Capaccio that the navigation payload supplied by subcontractor Exelis has had technical problems, and GPS-IIA SV-1 is now scheduled for by the end of 2015. Lockheed has earned $42.1 million in bonus fees for SV 1-2 from May 2011 to May 2014, but the May 2013-2014 period’s $17.1 million bonus was forfeit as a result. Sources: Bloomberg, “Lockheed Lost $26.2m in Award Fee Over GPS III Satellite Delay”

May 14/14: MGUE. Raytheon in El Segundo, CA receives a $22 million modification for MGUE (military global positioning system user equipment) software coding and security, bringing the total cumulative face value to $51.8 million. They need to finish the GPS receiver cards software coding, and perform security certification. The GAO has explained why this component of GPS-III is so important (q.v. March 12/14).

$7 million in FY 2014 USAF RDT&E funds are committed immediately. Work will be performed at El Segundo, CA and is expected to be completed by Aug 31/15. USAF Space and Missile Systems Center Contracting Directorate in El Segundo, CA manages the contract (FA8807-12-C-0012, PO 0015).

April 1/14: SV 7-8. Lockheed Martin announces a $245 million contract from the USAF, for GPS III satellites SV-7 and SV-8. This builds on previous contracts for long-lead time items (q.v. Feb 20/13, Feb 14/14). Sources: Lockheed Martin, “U.S. Air Force Awards Lockheed Martin Full Production Contracts For Next Two GPS III Satellites”.

GPS-IIIA: Satellites
7 & 8

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. GPS III’s 8 critical technologies have been assessed as mature, but 3 (incl. the timekeeping system and the key GPS signal generator) are late on qualification testing. In addition, issues identified in testing have forced fixes to components that include the mission data unit, and issues that include radio frequency isolation/ signal degradation. That forced later hardware delivery, so qualification testing is way behind. Result? a 2-year launch delay from April 2014 to April 2016.

The program is considering dual-launching GPS III satellites, potentially beginning as early as SV5. That would help to ensure a healthy constellation, but they’ll need rockets that can accomplish this. Preferably without requiring really expensive mid-stream design changes to the satellites.

On the ground, GPS III satellites will require OCX Block 1 control systems before they can be considered part of the constellation. At present, that’s a 6-month delay after SV1 launch, but additional OCX issues could push that back, wasting some of the 1st satellite’s useful time in orbit. Delays have already cropped up (q.v. March 30/12), and The 2nd GPS-IIIA satellite won’t even launch until OCX Block 1 is ready. At present, software development for OCX Block 0 is expected to finish testing by early 2015, and Block 1 development has begun development. Testing of the prototype, which requires Block 0/ Block 1 software and hardware components together, isn’t scheduled before December 2015. That’s 18 months after OCX’s Critical Design Review, and just 10 months before OCX Block 1 is supposed to be complete in October 2016. Overall, OCX will have just 7/14 technologies mature before October 2015, which is about 3 years after system development began.

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.” The cost figures for the GPS-IIIA and OCX programs are reflected in the charts above, and that growth has been under control. The challenge lies in the schedule, for reasons described above (q.v. March 31/14).

Overall, the OCX Block 1 ground control is slated to be ready for GPS III satellites by October 2016, 9 months after the first GPS IIIA satellite is available for launch (and 6 months after the revised launch date). The GAO adds that synchronizing receiver capabilities is equally important, via programs like MGUE:

“Satellites require ground control systems to receive and process information from the satellites, and user terminals to deliver that satellite’s information to users….. but development of satellites often outpaces the ground control systems and the user terminals…. lead to underutilized on-orbit satellite resources, and thus delays in getting the new capabilities to the warfighters or other end-users. In addition, there are limits to satellites’ operational life spans…. [so] they use up time in their operational lives without their capabilities being utilized…. budget authority for user terminals, ground systems, and satellites is spread throughout the military services, and no one is in charge of synchronizing all of the system components, making it difficult to optimally line up programs’ deliveries.”

March 4-11/14: FY15 Budget. The US military slowly files its budget documents, detailing planned spending from FY 2014 – 2019. The overall trend is slight cuts across the board for GPS-IIIA, OCX, etc. in FY 2013-2016, with ramped-up procurement spending beginning in FY 2017. That’s normally a bad sign for a program, but R&D, OCX, and MGUE spending will be declining at the same time, and GPS is vital enough that it may have better odds than most. One interesting note in the detailed budget documents:

“The Air Force is seeking authorization to exercise the contingency options for SV09-10 under the current contract. SV09-10 would utilize the same technical baseline as SV08. Additionally, the Department is investigating the future use of a multi-year procurement (MYP) strategy for GPS III which includes fixed-price contracting of multiple satellites to establish stable production and strategic sub-tier management…”

Feb 3/14: SV 7-8 long lead. Lockheed Martin Corp. in Newtown, PA receives a $14.4 million fixed-price-incentive-firm modification, providing long lead time materials for GPS III satellites 7-8. This would be on top of the Feb 20/13 contract.

All funds are committed immediately, using FY 2013 missile budgets. Work will be performed predominantly in Clifton, NJ, and is expected to be complete by June 2015. the USAF Space and Missile Systems Center Global Positioning Systems Directorate at Los Angeles AFB manages the contract (FA8807-13-C-0002, PO 0006).

Dec 12/13: SV 5-6. Lockheed Martin in Newton, PA receives a $200.7 million cost-plus-incentive-fee contract modification to begin production of SV-5 and SV-6. All funds are committed immediately from FY 2013 missile budgets. This builds on previous contracts for long-lead time items in satellites SV-3 to SV-8 (q.v. Feb 8/13).

Work will be performed at Littleton, CO, and Clifton, NJ, and is expected to be complete by Dec 14/17 (SV-5) and June 14/18 (SV-6). USAF Space and Missile Systems Center Contracting Directorate at Los Angeles AFB, CA manages the contract (FA8807-08-C-0010, PO 0276).

GPS-IIIA: Satellites
5 & 6

Oct 17/13: Testing. Lockheed Martin’s full-sized GPS III Nonflight Satellite Testbed (GNST) at Cape Canaveral successfully communicates via cross-links with faithful USAF hardware simulators for the GPS IIR, GPS IIR-M, and GPS IIF satellites. It’s the 1st time GNST has communicated with flight-like hardware from the rest of the GPS constellation and with a navigation receiver. Got to keep checking off the boxes. Sources: Lockheed Martin, “Lockheed Martin GPS III Satellite Prototype Proves It Can Successfully Communicate With GPS Satellite Constellation”.

Oct 3/13: OCX. Raytheon Company announces that their OCX ground control system has completed its software Iteration 1.5 Critical Design Review (iCDR). It follows an Aug 1/12 announcement for Iteration 1.4’s iCDR. Iteration 1.5 software development brings OCX software development into the home stretch: it includes the mission-critical Launch and Checkout System (LCS) software, and serves as the cyber-hardened baseline to which additional capabilities will be added to complete OCX Blocks 1 and 2.

LCS recently received Interim Authority To Test certification for one year with no liens, which is a very good sign for information assurance. Full system test and evaluation will begin in late 2013, and early site integration is scheduled for early 2014 at Schriever AFB, CO and Vandenberg AFB, CA. That will be followed by acceptance testing in 2014, in preparation for an expected 2015 launch of GPS-III SV-1. Sources: Raytheon, “Raytheon completes critical design review for GPS OCX software Iteration 1.5″.

FY 2012 – 2013

Satellites #3 & 4 ordered; Satellites 5 & 6 begun; GAO says ground control is behind; Pathfinder satellite prototype/testbed is ready. How GPS Works
(click to view full)

July 19/13: Testing. Lockheed Martin’s full-sized, functional GPS III Non-Flight Satellite Testbed (GNST) prototype arrives at Cape Canaveral AFS, FL aboard a C-17 jet from Buckley AFB, CO. GNST will begin to dry run launch base space vehicle processing activities and other testing, before SV-1 arrives in 2014. Sources: Lockheed Martin, “Lockheed Martin GPS III Satellite Prototype To Help Cape Canaveral Air Force Station Prep For Launch”.

Feb 20/13: SV 7-8 long lead. Lockheed Martin Space System Co. in Newtown, PA receives a $58.2 million contract modification, covering long-lead materials for GPS-III satellites SV-7 and SV-8, using FY 2013 funds.

Work will be performed in Newton, PA, and is expected to be complete by June 30/17. Type of appropriation is fiscal 2013. The SMC/GPK at Los Angeles AFB, CA manages the contract (FA8807-13-C-0002). See also Lockheed Martin, “U.S. Air Force Awards Lockheed Martin Contracts to Begin Work on Next Set of GPS III Satellites”.

Feb 8/13: SV 5-6 long lead. Lockheed Martin Space System Co. in Newtown, PA receives a $62 million firm-fixed-price contract for GPS-III Space Vehicles 5 and 6. Lockheed Martin has confirmed that this is a long-lead time materials contract, to ensure that key materials and sub-components are ready when the main order is placed.

Work will be performed in Newtown, PA, and is expected to be complete by June 30/17. The SMC/GPK, Los Angeles Air Force Base, CA manages the contract (FA8807-13-C-0002).

Feb 6/13: Lockheed Martin announces that they’ve completed Software Item Qualification Testing (SIQT) for GPS-III’s spacecraft bus flight software, which controls the spacecraft on orbit and monitors the health and safety of the satellite’s subsystems.

The flight software has already been integrated and tested on the program’s GPS III Non-Flight Satellite Testbed (GNST) prototype, and now it will go on to integration and testing in SV 1, scheduled for “launch availability” in 2014.

Nov 27/12: OCX. Raytheon in Aurora, CO receives a $7.2 million contract modification to support the GPS Next Generation Operational Control System. Work will be performed in Aurora, CO, and is expected to be complete by Dec 31/13. The USAF’s SMC/GPS group at Los Angeles Air Force Base, CA manages the contract (FA8807-10-C-0001, PO 0079)

Nov 19/12: Testing. Team Lockheed Martin has completed thermal vacuum testing for the Navigation Payload Element (NPE) of their GPS-III Non-Flight Satellite Testbed (GNST). The milestone is one of several environmental tests, and verifies the equipment’s ability to survive the hostile space environment. Lockheed Martin.

Oct 11/12: OCX to EMD. The OCX (Next Generation Operational Control System) has successfully met all requirements to enter into the Engineering and Manufacturing Development phase. Under Secretary of Defense for Acquisition, Technology and Logistics Frank Kendall signs the memo. USAF.

OCX Milestone B

Aug 20/12: Launch Options. AviationWeek reports that the Air Force is considering dual or triple launches for GPS satellites. Operators such as Arianespace have argued in favor of their dual-payload capabilities, as it happens used by the USAF with its CHIRP piggybacked to the SES-2 commercial satellite last year. The CEO of International Launch Services (ILS) countered with arguments in favor of single-satellite launches. In any case the Pentagon and Air Force are watching how competitors abroad are ramping up their networks: Arianespace is making dual launches for Galileo while China is using triple launches for its Beidou positioning network.

The Air Force is also looking at SpaceX as a potential (multi) launch provider, following their joint announcement with NASA and NRO that they would consider options besides EELV.

Aug 1/12: Software. Raytheon announces that they’ve successfully completed OCX software iteration 1.4’s Critical Design Review (iCDR). Based on their description, this seems to be the stopgap Launch & Checkout capability, which won’t work with the satellite’s the jam-resistant M-code signal, or its 3 new civil signals.

May 31/12: Support. Lockheed Martin announces a $68 million contract to provide GPS-III mission readiness, launch, early orbit checkout, and on-orbit operations engineering support.

Under the contract, Lockheed Martin will provide technical support to the Air Force’s 2nd Space Operations Squadron (2SOPS), and provide the Launch and Checkout Capability (LCC) ground control system required to manage GPS III SV-1 in 2014. Lockheed Martin’s Newtown, PA facility will also support the operations of the 1st 2 GPS III satellites – from launches in 2014 – 2015, through their expected 15-year service lives in space.

May 29/12: Lockheed Martin announces that it has powered on the GPS III “Pathfinder” Non-Flight Satellite Testbed (GNST), with its Mission Data Unit and advanced atomic clocks on board. The rest of the GNST’s Navigation Payload Element is scheduled for delivery to the GPS Processing Facility in fall 2012.

The GPS III SV-1 satellite will follow Pathfinder, and Lockheed touts lessons learned that include:

• 50-80% reductions in labor hours and defect rates between similar activities on the GNST and SV-1.
  
• Identification of “tens of millions of dollars in cost savings” for the production satellites, based on process improvements recognized during GNST integration and test.
  

 

GNST “Pathfinder” testbed powered on

March 30/12: GAO Report. The US GAO tables its “Assessments of Selected Weapon Programs” for 2012. With respect to the GPS III satellites:

“The GPS III is experiencing cost growth and the contractor is behind schedule, but the program does not expect these delays to affect the launch of the first satellite… In November 2011, the contractor’s estimated cost at completion for the development and production of the first two satellites was over $1.4 billion or 18 percent greater than originally estimated; the program office estimated the cost to be about $1.6 billion. [Reasons given included] including reductions in the program’s production rate; greater than expected efforts to produce engineering products compliant with more stringent parts, materials, and radiation testing requirements; test equipment delays; and inefficiencies in the development of both the navigation and communication payload and satellite bus.”

With respect to the OCX ground control system, the first 2 software packages have been completed, but the complexity of the software development effort has proven challenging. The problem is that of OCX’s 8 software iterations (6 Block I and 2 Block II), Block I phases 3 & 4 have started late, and will finish late.

The testing process is being tweaked to find defects earlier, which is standard practice in many modern methods. Even so, the bottom line is that GPS OCX Block I isn’t expected until August 2015. The first GPS III satellite launch is planned for in May 2014, so the GPS directorate is funding a stopgap “Launch & Checkout” command and control capability. Any delay in the delivery of the launch and checkout system could potentially cause the Air Force to delay the launch of the first GPS III satellite, and even if it launches on time, L&C won’t work with the satellite’s the jam-resistant M-code signal, or its 3 new civil signals.

GAO report

Jan 11/12: SV-3/SV-4 start. Lockheed Martin Space System Co. in Newton, PA receives a $238.5 million cost-plus-incentive-fee with award fee contract, exercising the option to begin production of GPS III satellites SV-3 and SV-4. It’s the 1st major GPS-III satellite contract since 2008.

Work will be performed in Newtown, PA, and is expected to be complete by Jan 24/16. The USAF’s. SMC/GPK in El Segundo, CA manages the contract (FA8807-08-C-0010, CLIN 0016).

GPS-IIIA: Satellites
3 & 4

Jan 6/12: Lockheed Martin Space System Co. in Newtown, PA receives a $21.6 million cost-plus-incentive-fee with award fee and cost-plus-fixed-fee contract for a launch checkout and capabilities system. It will perform launch and early orbit activities of the GPS-III satellites, from a co-located contractor facility.

Work will be performed in Newtown, PA and King of Prussia, PA, and is expected to be complete by Dec 18/20. The USAF’s SMC/GPK in El Segundo, CA manages this contract (FA8807-08-C-0010).

Jan 3/12: MGUE. L-3 Communications Corp. in Camden, NJ receives a $25.7 million cost-plus-award-fee and cost-plus-fixed-fee contract modification, to correct MGUE receiver card deficiencies and complete the contract. They fell short during functional qualification testing, and these changes are needed for the cards to meet contract requirements. This modification also implements updated MGUE interface control documents, adds functionality to delivered Military-Code (M-Code) GPS receivers to provide additional military utility, and increases performance design margin in functions within receivers for future M-Code receiver developments.

Work will be performed at L-3 Communications Systems Co./Interstate Electronics Corp. in Anaheim, CA, and is expected to be complete by July 26/13. The USAF Space and Missile Systems Center (SMC) in El Segundo, CA manages the contract (FA8807-06-C-0003, PO 0088).

Dec 30/11: MGUE. Raytheon in Waltham, MA receives a $38.5 million cost-plus-award-fee and cost-plus-fixed-fee contract modification, to correct MGUE receiver card deficiencies and complete the contract. They fell short during functional qualification testing, and these changes are needed for the cards to meet contract requirements (see also Dec 14/11 entry).

Work will be performed in El Segundo, CA, and is expected to be complete in November 2012. The USAF Space and Missile Systems Center (SMC) in El Segundo, CA manages the contract (FA8807-06-C-0004, PO 0073).

Dec 22/11: OCX. Raytheon Intelligence and Information Systems in Aurora, CO receives a $30 million cost-plus-incentive-fee and cost-plus-award-fee contract for the Launch and Checkout System element of OCX. The Launch and Checkout System is necessary to support the launch of the GPS III Space Vehicle I, which includes support exercises, rehearsals, launch, early orbit and checkout.

Work will be performed in Aurora, CO, and is expected to be complete by March 31/16. The USAF SMC in El Segundo, CA manages the contract (FA8807-10-C-0001, PO 0054).

Dec 14/11: Lockheed Martin announces that they have delivered the GPS-III’s Non Flight Satellite Testbed (GNST) to Denver, CO. The full-sized, flight equivalent prototype will be mated with its core structure, navigation payload and antenna elements before completing pathfinding activities and environmental test checkouts. They also announce that their new GPS-III Processing Facility (manufacturing line, see program section) has opened.

Dec 13/11: MGUE. Rockwell Collins, Inc. in Cedar Rapids, IA receives a $20.8 million cost-plus-award-fee and cost-plus-fixed-fee contract to complete the Modernized User Equipment (MGUE) effort, to correct MGUE receiver card deficiencies that were identified during functional qualification testing. It also implements updated MGUE interface control documents; adds functionality to delivered military-code GPS receivers to provide additional military utility; and increases performance design margin in functions within receivers for future military-code receiver developments.

Work will be performed in Cedar Rapids, IA, and is expected to be complete on Feb 28/13. USAF SMC/GPK in El Segundo, CA manages the contract (FA8807-06-C-0001, PO 0060).

Oct 10/11: Lockheed Martin announces that it has turned on initial power to GPS-III’s Non Flight Satellite Testbed (GNST). The GNST contains power subsystem components, harnesses, plus tracking, telemetry and control hardware. Flight software versions have also been delivered for all of the spacecraft and payload computer processors. In parallel, GPS III teammate ITT is integrating the GNST Navigation Payload at their facility in Clifton, NJ.

The GNST will be shipped to Lockheed Martin’s GPS III Processing Facility in Denver before the end of 2011 to demonstrate Assembly, Integration and Test procedures. It will then be delivered to Cape Canaveral Air Force Station in the summer for 2012, for pathfinding activities at the launch site. Launch is currently scheduled for 2014.

FY 2010 – 2011

Team Raytheon wins OCX, finishes PDR; Layoffs at Lockheed.

Sept 26/11: OCX. Raytheon announces that its OCX control segment has been certified as completing its Preliminary Design Review.

Sept 6/11: OCX. Raytheon says that it has completed the action items that emerged from the USAF’s GPS-III OCX control segment’s June 2011 Preliminary Design Review.

Raytheon VP Bob Canty says that the design itself was assessed as architecturally and technically sound, adding that about 66% of the initial software is developed, but not all of it is tested. A good rule of thumb: until software is tested, it isn’t really developed. Aviation Week.

OCX PDR

June 14/11: 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 phase.

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.

Lockheed Martin Layoffs

March 15/11: Lockheed Martin announces that its GPS III team, has successfully completed the program’s first major flight software integration milestone, tying the initial flight software builds to the flight-like computer processors for the satellite bus On-Board Computer (OBC), the Navigation Payload Mission Data Unit (MDU), and the Communications Payload Thin Communications Unit (TCU).

The team at Lockheed’s software integration laboratory in Newtown, PA will now work to fully qualify the flight software, then load it on the GPS Non-Flight Satellite Testbed (GNST). Meanwhile, the firm says that their team has completed more than 50% of the GPS-III program’s Manufacturing Readiness Reviews (MRRs), and remains on track to deliver the first GPS IIIA spacecraft as planned in 2014.

Jan 19/11: OCX. Raytheon touts its new El Segundo, CA GPS Collaboration Center, opening in February 2011. The 17,900-square-foot center will include an executive presentation room, state-of-the-art operations and demonstration areas, high-definition video-teleconferencing capabilities, and the ability to interact with the GPS OCX system in an operations-like environment. Raytheon VP and GPS OCX program manager Robert Canty:

“Through the center, Raytheon and Space and Missile Systems personnel will be able to collaborate with the Air Force and program partners via virtual demonstrations from Raytheon’s other program locations in Aurora, Colo., and the Network Integration and Experimentation Center in Rosslyn, Va.

The Raytheon GPS OCX team has completed Phase A of the program, and is on schedule to complete the Phase B preliminary design review in winter 2011.

Nov 2/10: OCX. Raytheon announces completion of the software specification review for the GPS advanced control (OCX) segment, which will provide command, control, and mission support for the GPS Block II and Block III family of satellites. The review includes several analyses: the architecture; operations concept; segment, prime mission and interface requirements; and allocation to the software requirements specifications, interface requirements specifications, and operational concept document.

The next step for the OCX segment is the Preliminary Design Review, scheduled for spring 2011.

Sept 28/10: OCX. Raytheon team completes integrated baseline review for the $886.4 million GPS advanced control segment (OCX), which will provide command, control and mission support for the GPS Block II and Block III family of satellites. The OCX system will include anti-jam capabilities and improved security, accuracy and reliability and will be based on a service-oriented architecture to integrate government and industry open-system standards (see Feb 25/10 entry).

Sept 15/10: The US GAO issues report #GAO-10-636, “Global Positioning System: Challenges in Sustaining and Upgrading Capabilities Persist.” Some excerpts:

“The Air Force continues to face challenges to launching its IIF and IIIA satellites as scheduled… GPS IIIA appears to be on schedule and the Air Force continues to implement an approach intended to overcome the problems experienced with the IIF program. However, the IIIA schedule remains ambitious and could be affected by risks such as the program’s dependence on a ground system that will not be completed until after the first IIIA launch. The GPS constellation availability has improved, but in the longer term, a delay in the launch of the GPS IIIA satellites could still reduce the size of the constellation to fewer than 24 operational satellites [required for full global coverage]. Multiyear delays in the development of GPS ground control systems are extensive. In addition, although the Air Force has taken steps to enable quicker procurement of military GPS user equipment, there are significant challenges to its implementation… GAO recommended last year in terms of establishing a single authority responsible for ensuring that all GPS segments are synchronized to the maximum extent practicable… The GPS interagency requirements process… remains relatively untested and civil agencies continue to find the process confusing… Challenges remain for the United States in ensuring that GPS is compatible with other new, potentially competing global space-based PNT systems.”

Sept 10/10: GPS-III’s 1st contract deliverable goes out ahead of schedule, as the GPS III Bus Real Time Simulator (BRTS) shipped from its Newtown, PA, facility to Aerospace Corporation in El Segundo, CA. Acceptance testing for the BRTS was completed 7 days after delivery.

The BRTS is a risk reduction tool that will allow Aerospace Corporation to independently validate GPS III flight software for the USAF, as Lockheed Martin delivers bus flight software increments. Lockheed Martin.

Aug 31/10: MGUE. As an example of the system-wide harmonization the GAO refers to, officials at Rockwell Collins successfully delivers 21 modernized receiver cards for the prototype ground-based GPS receiver application module (GB-GRAM-M) under the GPS Wing’s Receiver Card Development program. These GB-GRAM-M receiver cards recently completed formal contractor qualification testing, and have been delivered to support the GPS Wing’s developmental test phase.

Asked about this effort, the USAF Space and Missile Systems Center’s GPS Wing responds that the cards will take advantage of the new capabilities that the GPS-III satellites will provide, and the receiver takes advantage of GPS-III changes to the Signal-in-Space but this is not part of the program directly.

The goal of their larger Modernized User Equipment (MGUE) program its part of is to demonstrate the critical technology needed to incorporate a new M-Code military signal and security architecture, using precision-encrypted Y-code, M-Code and coarse acquisition-code receivers that can process legacy signals as well. USAF.

Aug 20/10: Lockheed Martin announces that the GPS-III program has completed its Critical Design Review (CDR) phase 2 months ahead of the baseline schedule, after more than 350 representatives from the USAF GPS Wing, GPS III contractor team, and representatives from the Department of Defense, Air Force Space Command, the Department of Transportation and the Federal Aviation Administration participated in a 4-day Space Vehicle CDR at Lockheed Martin Space Systems Company’s new Patriot Center in Newtown, PA.

Completing the CDR enables the GPS-III team to move forward into production, and Lockheed Martin says that the program is still on track for an initial GPS-IIIA launch in 2014. Lockheed Martin.

Aug 18/10: Honeywell announces that its GPS-III On Board Computer (OBC), Reaction Wheel Assembly (RWA) and Inertial Measurement Unit (IMU) have successfully completed Critical Design Reviews. The total contract value for these 3 sub-contracted components is more than $106 million through the life of the program.

Honeywell’s OBC is part of the telemetry, tracking and command subsystem, and runs flight software that provides attitude, power, and thermal control. It is the first radiation hardened high-speed processing system based on commercial PowerPC chip technology. Honeywell’s RWA provides momentum control for the space vehicle, which allows it to provide more accurate positioning. The IMU’s fiber optic gyroscopes provide attitude reference information for the space vehicle, extending mission capability by 50%. The RWA and IMU are part of the attitude control subsystem.

April 12/10: OCX. Boeing announces that it will develop portions of the U.S. Air Force’s new GPS OCX ground control segment, as a member of the Raytheon team. Boeing will provide infrastructure, development of the ground systems, and continued 24/7 operational and sustainment support, installing hardware and software at GPS control stations at Schriever AFB, CO; and Vandenberg AFB, CA.

Feb 25/10: OCX. Raytheon Co. in Aurora, CO won an $886.4 million contract to provide the GPS advanced control segment (GPS OCX), which will provide command, control and mission support for the GPS Block II and Block III family of satellites. The OCX development contract will be 73 months long, and will include development and installation of hardware and software at GPS control stations at Schriever AFB, CO and Vandenberg AFB, CA, deployment of advanced monitor stations at remote sites, and initial contractor support with sustainment options for 5 years. with If those sustainment options are exercised, the contract could be worth up to $1.535 billion.

The Raytheon team includes Boeing, ITT, Infinity Systems Engineering, the Jet Propulsion Laboratory, SRI International and Braxton Technologies. ITT’s release sees their OCX contract as the continuation of an initial phase awarded in 2007, adding that ITT payloads have been on every GPS satellite ever launched, and have yet to experience a mission-related failure in orbit.

They beat out a Northrop Grumman-led team that included includes Lockheed Martin. The 55 CONS/LGCD at Offutt Air Force Base, NE manages the contract. Raytheon | Los Angeles AFB release | ITT release [PDF].

Raytheon wins OCX

FY 2004 – 2009

Initial development contracts for satellites & OCX; Lockheed Martin wins satellite contract; Can GPS-III deliver in time? USNO Atomic Clock
(click to view full)

July 22/09: OCX. The U.S. House Appropriations Committee cut $97.4 million from President Obama’s FY10 request for $486.8 million for development of the GPS III operational control segment (OCX). The committee attributed the cut to a “GPS control segment contract delay.”

The two prime contractors under Phase A of the GPS OCX development are Raytheon and Northrop Grumman. Responding to the funding cut, Raytheon said it “is committed to burning down risk in our current Phase A activities and looking forward to receiving an award for the GPS OCX program Phase B activities later this year.” Northrop Grumman said, “We will work through any impacts this could potentially have to the program with the Air Force.” The Phase A contract expires in September 2009. Both companies are leading teams that are bidding on the Phase B work, which is expected to be awarded in the Q4 2009.

June 20/09: OCX. Northrop Grumman’s GPS OCX team submits its proposal to the U.S. Air Force for the single-winner OCX Phase B contract, after working in parallel with Raytheon’s team on the 22-month Phase A contract. Presumably, Raytheon also submits its proposal, but no announcement was made. NGC release.

May 21/09: PDR. Lockheed Martin announces that the GPS III team has successfully completed the Preliminary Design Review (PDR) phase for the GPS III spacecraft segment. The milestone was the culmination of 70 subsystem and assembly PDRs that had been executed over the past 6 months by Lockheed Martin, ITT, and General Dynamics.

Nearly 150 representatives from the U.S. Air Force Global Positioning Systems Wing and user communities, including representatives from the Department of Defense, the Joint Chiefs of Staff, Air Force Space Command, the Department of Transportation, and the Federal Aviation Agency participated in the 4 day Space Vehicle PDR at Lockheed Martin Space Systems facilities in Newtown, PA. The next major milestone is the Critical Design Review, and first launch is projected for 2014.

Satellite PDR

May 7/09: GAO Report. The US Government Accountability Office releases report #GAO-09-670T, “Global Positioning System: Significant Challenges in Sustaining and Upgrading Widely Used Capabilities.” The report questions the fundamental underpinnings of the GPS Block IIIA program:

“It is uncertain whether the Air Force will be able to acquire new satellites in time to maintain current GPS service without interruption… the current IIF satellite program has overrun its original cost estimate by about $870 million and the launch of its first satellite has been delayed to November 2009 – almost 3 years late. (2) Further, while the Air Force is structuring the new GPS IIIA program to prevent mistakes made on the IIF program, the Air Force is aiming to deploy the next generation of GPS satellites 3 years faster than the IIF satellites. GAO’s analysis found that this schedule is optimistic, given the program’s late start, past trends in space acquisitions, and challenges facing the new contractor. Of particular concern is leadership for GPS acquisition, as GAO and other studies have found the lack of a single point of authority for space programs and frequent turnover in program managers have hampered requirements setting, funding stability, and resource allocation…”

April 21/09: OCX. Raytheon announces a $21.5 million contract extension to perform additional risk-reduction R&D for the next-generation Global Positioning System Operational Ground Control (OCX) segment. To date, the release maintains that the program remains on budget and ahead of schedule. Nevertheless, Bob Canty, Raytheon GPS OCX vice president and program manager:

“We are working with our customer to continue to reduce program risk to ensure that we have the lowest-risk program going forward. What’s critically important on this program is to be able to deliver our team’s commitments fully and on-time.”

See also SatNews.

March 31/09: GAO Report. The US GAO audit office delivers its 7th annual “Defense Acquisitions: Assessments of Selected Weapon Programs report. Despite GPS III’s status, it focuses instead on the prior GPS IIF program, including the interim Architectural Evolution Plan ground system upgrade:

“As a result of development and production problems, the program office now estimates the launch of the first Block IIF satellite will be delayed to October 2009 – almost 3 years later than its original launch date… technical problems discovered during thermal vacuum testing resulted in additional schedule delays and cost increases on the program… The Block IIF program is also experiencing other technical problems… The delivery of the first AEP segment allowed for the transfer of operations of current GPS satellites from the existing ground control system. In March 2008, AEP was upgraded to add the capability to control Block IIF satellites… the development schedule for the final AEP upgrade, which will ensure the integrity of the GPS signal, may not allow enough time for sufficient operational testing before the scheduled launch of the first Block IIF satellite.”

March 4/09: MGUE. The Air Force is modifying a contract with the Science Applications International Corp. (SAIC) in El Segundo, CA for $12.7 million, changing the original system engineering and integration services contract to expand the Modernized Global Positioning System User Equipment program.

This program is designed to ensure that American military forces have receiver equipment that can beginning taing advantage of new GPS features as they’re introduced. At this time $69,368 has been obligated by the USAF GPS Wing in El Segundo, CA (FAA807-07-C-002/P00019).

Feb 16/09: OCX. Northrop Grumman’s team successfully completes the System Design Review for the GPS OCX program. The System Design Review included a comprehensive exam of the total system architecture: software, hardware, processes, interfaces and operations by USAF program managers, operators and technical experts. This is the final major milestone under the Phase A contract, laying the foundation for the final decision on which team to pick: Northrop Grumman’s, or Raytheon’s.

Northrop Grumman’s release says that the team currently includes Harris Corporation; Integral Systems Inc.; Lockheed Martin Information Systems and Global Service; and Infinity Systems Engineering.

Feb 2/09: OCX. Northrop Grumman announces that its team has successfully demonstrated command and control of a GPS IIR-M satellite , using its GPS OCX Modernized Capability Engineering Model (MCEM) to successfully command and control a satellite test simulator located at Cape Canaveral Air Force Station, FLA, from a Northrop Grumman plant in Redondo Beach, CA. As part of the process, the USAF provided the Northrop Grumman team a data set embedded with several anomalies:

“The team initiated contact with the test satellite and commanded it through a series of complex procedures that demonstrated the ability to restore mission operations and the delivery of highly accurate position and time information for GPS users. The Northrop Grumman team successfully controlled a new secure military signal that will substantially improve the availability of accurate GPS data to U.S. forces.”

Dec 13/08: OCX. Raytheon’s team successfully completes GPS OCX’s System Design Review and modernized capability engineering model demonstration on time, and within budget. The team demonstrated the ability to command modernized GPS signals, provide situational awareness and expose data on the network during the modernized capability engineering model demonstration.

The originally announced team included Boeing, ITT Industries, Braxton Technologies, Infinity Systems Engineering and the Jet Propulsion Laboratory; but the Raytheon SDR announcement adds SRI International to the team. Raytheon | Braxton Technologies | GPS Daily.

Aug 18/08: The US DoD releases its latest Selected Acquisition Reports. GPS-III appears as a new program, and total program cost is baselined at $4.002 billion.

SAR baseline

July 21/08: Northrop Grumman announces that its GPS OCX team recently completed the Standard Capability Maturity Model Integration (CMMI) Appraisal Method for Process Improvement (SCAMPI) software assessment, passing another significant milestone for the multi-billion dollar program and continuing Northrop Grumman’s enterprise-wide audit successes. NGC’s release adds:

“The government uses SCAMPI appraisals to identify strengths and weaknesses of software, engineering and management processes, and to reveal acquisition development risks for corrective action. These appraisals are frequently used as part of a process improvement program or for rating prospective prime contractors and their key subcontractors. The U.S. Air Force GPS Wing conducted a multi-week, comprehensive software appraisal, thoroughly examining more than 1,000 documents and measuring them against hundreds of criteria.”

July 18/08: Boeing wins an R&D contract for the “High Integrity GPS” project, which aims to leverage the Iridium constellation to improve military GPS accuracy and resistance to jamming. Victory of a sort, from the jaws of defeat?

Boeing’s HiGPS

May 21/08: After losing the GPS-III contract, Boeing will lay off 750 Southern California employees at plants in El Segundo and Seal Beach. This will reduce the staff of Boeing Space and Intelligence Systems from 7,200 employees to about 6,450. National Examiner.

Boeing layoffs

May 20/08: In “Who’s Leaking Air Force Procurement Information?“, the crew at the pro-Boeing Tanker War Blog raise a interesting question: was the result of the GPS-III contract effectively leaked to the public almost a month before the award? On April 29/08, Loren Thompson of The Lexington Institute published “Boeing and the Air Force at War: The Damage Spreads.” It included this quote:

“But the tone of Boeing’s tanker campaign has led at least some service officials to believe the worst about the company, a feeling that is spreading far beyond tankers. For instance, the service has probably delayed announcing award of the GPS III satellite contract in part because it fears another Boeing protest.”

There is more than one way to read that snippet, but the betting odds reading suggests that Boeing has lost this contract. The participants in Tanker War blog include legislative assistants on Capitol, and the post adds that:

“A number of people on the Hill tell us that they have very strongly believe a main source for these leaks [is]…”

May 15/08: Winner! Lockheed Martin Space Systems Co. of King of Prussia, PA received a cost plus incentive fee/cost plus award fee contract for $1.46 billion for the first increment of the GPS III contract, covering 2008-2017. Lockheed Martin’s flight-proven A2100 satellite bus will serve as the base platform, and first launch is currently expected in 2014.

This initial contract funds 2 GPS IIIA research and development satellites (SV-1 and SV-2), a capability risk reduction and maturation effort to get key technologies ready for GPS IIIB and GPS IIIC, a GPS satellite simulator, “continue support for the Nuclear Detonation Detection System mission,” and a satellite bus real time simulator that lets the USAF test new electronics and additions. It also includes options for 10 additional GPS IIIA production satellites. At this time $96.8 million has been obligated. The Headquarters Space and Missile Systems Center in El Segundo, CA issued the contract (Lockheed Martin: FA8807-08-C-0010; Boeing: FA8807-08-C-0012). USAF release | Lockheed Martin release | ITT release copy [PDF format] | National Examiner.

Lockheed Martin wins GPS-III development, incl. Satellites
1 & 2

April 28/08: OCX. Northrop Grumman Corporation announces that Lockheed Martin has joined its Global Positioning System (GPS) Next Generation Control Segment (OCX) team.

Nov 21/07: OCX. The USAF awards a pair of a cost plus fixed fee, firm-fixed-price 18-month contracts to Northrop Grumman of Carson, CA ($160 million, FA8807-09-C-0001) and Raytheon Company of Aurora, CO ($159.8 million, FA8807-09-C-0003). At this time $16 million has been committed by the U.S. Air Force Space and Missile Systems Center. The firms will develop a new next-generation global positioning system control segment (GPS OCX) design with new anti-jamming technologies, more advanced predictive algorithms, and more frequent clock and ephemeris updates.

The dual award is designed to reduce risk, by introducing competition. Phase A is the competitive risk reduction effort which includes trade studies, requirements definition and engineering model development. That competition will include a system requirements and system design reviews, and creation of a modernized capability engineering model. These deliverables will support OCX “Key Decision Point B,” whereupon the USAF will decide on the single prime contractor to finish OCX development and field the system.

The previous GPS control segment incumbents each joined a team. Lockheed Martin lost the original bid, and eventually joined Northrop Grumman’s team. Boeing never competed alone, and was an early member of Raytheon’s team. Raytheon | Northrop Grumman | Inside GNSS.

OCX Ground control: Initial Development

Dec 16/06: Co-competitors Lockheed Martin Space Systems Corp. and Boeing Co. each receive a $50 million cost-plus-fixed fee contract modification to accomplish a GPS III system design review (SDR) in March 2007. The USAF’s Global Positioning Systems Wing at Los Angeles Air Force Base, CA intends to reach its key decision point B single-selection in June 2007, when they will award the multi-billion dollar development contract for building GPS III.

In early 2005, the GPS III program was restructured from an FY12 first launch to no later than an FY13 first launch. It would eventually be moved again, to 2014. GPS World.

Phase B Development

Jan 7/04: The Headquarters Space and Missile Systems Center at Los Angeles Air Force Base, CA awards a $20.8 million contract to Boeing in Seal Beach, CA, and $20.786 million to Lockheed Martin in King of Prussia, PA for GPS III Phase A acquisition. These 2 contractors have been selected to “competitively mature GPS III requirements for a successful system requirements review, in support of key decision Point B acquisition milestone.” In English, this means they’ll develop key technologies so the USA can make a strong case to begin the formal System Design & Development phase.

At this time, $10.3 million of the funds have been obligated; further funds will be obligated as individual delivery orders are issued. Solicitation began September 2003, negotiations were completed in December 2003, and work will be complete by December 2005 (FA8807-04-C-0001 [Lockheed]; FA8807-04-C-0002 [Boeing]).

Phase A Development

Additional Readings GPS Generally

• GPS.gov – Official US government site about GPS.

• NAVSTAR GPS Joint Program Office (SMC/GP)

• USAF – GPS Constellation Status

• The Aerospace Corp. FFRDC – GPS Primer – The Global Positioning System: An Amazing Tool

• USAF Space Command, High Frontier Journal (May 2008, Vol 4, #3) – Space-Based Positioning, Navigation, and Timing special issue [PDF format]. Probably the best depth introduction for laypeople looking to understand GPS’ role, challenges, and future plans.

• Astronautix.com – Navstar. Overview of the entire program, plus dates.

• Lockheed Martin – Global Positioning System

• Boeing – GPS IIF (Global Positioning System)

• DID – The GPS Constellation: Now and Future

• USAF Los Angeles AFB (Sept 17/07) – Air Force Completes Transition of GPS Fleet to Upgraded Control System. They mean AEP, though AEP will continue to receive improvements until it’s replaced by OCX.

GPS-III Program Background

• US Dept. of Commerce – GPS Modernization

• USAF Fact Sheets – GPS III

• Digital Trends (Dec 13/11) – GPS III explained: Everything you need to know about the next generation of GPS

• Inside GNSS (Sept/Oct 2011) – GPS III: Bringing New Capabilities to the Global Community

• Crosslink Magazine (Summer 2002) – Modernization and the Move to GPS III Excellent summary of GPS III’s planned improvements as of that date.

• USAF Fact Sheets – GPS Advanced Control Segment (OCX)

• Raytheon – Global Positioning System Next Generation Operational Control System (GPS OCX)

• Milsat Magazine (October 2007) – GPS OCX: The View From Raytheon. An Interview with Robert N. Canty

Official Reports

• US CRS (May 14/12) – Proliferation of Precision Strike: Issues for Congress. An inevitable corollary of proliferating GPS systems with improved civilian accuracy, and other tech and military trends are also pushing this. The report doesn’t quite grasp the real scope, but it’s a start.

• US GAO (Sept 15/10, #GAO-10-636) – Global Positioning System: Challenges in Sustaining and Upgrading Capabilities Persist

• US GAO (May 7/09, #GAO-09-670T) – Global Positioning System: Significant Challenges in Sustaining and Upgrading Widely Used Capabilities. Most important quote: “It is uncertain whether the Air Force will be able to acquire new satellites in time to maintain current GPS service without interruption.”

• Inside GNSS (July/Aug 2006) – The L2C Study: Benefits of the New GPS Civil Signal. Economic calculations.

• US Defense Science Board (October 2005) – The Future of the Global Positioning System

Other GNSS Systems – and Alternatives

• DID FOCUS – Galileo GPS Project Faces More Certain Future. Includes readings covering security-related issues, and China’s own GPS projects. China is also a member of the Galileo consortium.

• DID Spotlight – Boeing Wins R&D Contract for High Integrity GPS. Iridium as a GPS-enhancing overlay: a form of victory, from the jaws of Boeing’s defeat?

• GPS World (April 1/11) – Innovation: GLONASS: Developing Strategies for the Future

• RIA Novosti, via UPI (March 3-4/08) – Glonass Gloom: Part 1 | Part 2.

• BAE – Navigation Via Signals Of Opportunity (NAVSOP)

• Fox News (Nov 30/12) – Better than GPS? BAE navigator uses Wi-Fi, radio signals. NAVSOP.

News and Views

• James Hasik (Nov 20/12) – Roscosmos in the US? The concerns for and the benefits of better GLONASS guidance

• The Aerospace Corp FRDC (Dec 7/12) – GPS for Humanity

• Eric Gakstatter, CGSIC USS&L Meeting (Sept 20/10) – What’s Going to Happen When High Precision GPS is Cheap? Thanks to the L5 signal.

• Los Angeles Times (May 23/10) – GPS is getting an $8-billion upgrade

• GPS World (May 1/09) – L5 Demo Payload: From Concept to Capability in Less Than 12 Months. The demo payload flew on GPS IIR-20M. Dead link.

• GPS World (June 1/08) – AEP Goes Operational: GPS Control Segment Upgrade Details. Dead link.

• USAF, Los Angeles AFB (May 17/08) – SMC Announces Contract Award for Next Generation GPS Space Segment

• DID (May 30/06) – Lockheed & EADS to Ensure Navstar/ Galileo GPS Compatibility

• The Space Review (June 19/06) – Will China Compel the Development of GPS 4? “This will mean that the current GPS 3 program will have to be curtailed or modified beyond recognition. The generation after next of GPS satellites will have to include much more robust methods for overcoming or avoiding enemy interference… In the long term this could create some interesting opportunities for the Transformational Satellite (T-Sat) communications program to work with the designers of the future GPS system.”