Defence`s Feeds

Rheinmetall and General Dynamics (GD) Ordnance and Tactical Systems (GD-OTS) have reached an agreement with the Canadian Government to produce Omnitrap decoy ammunition to Canadian Navy for 30 years.

The deckhouse of the US Navy’s America-class large-deck amphibious assault ship, USS Tripoli (LHA 7), has been successfully installed by Huntington Ingalls Industries’ (HII) Ingalls Shipbuilding division.

... unfortunately it`s true...

Presentation by Patrick Ky, Executive Director of the European Aviations Safety Agency (EASA)
Presentation by Philippe Merlo, Director Air Traffic Management, Eurocontrol
Source : © European Union, 2016 - EP

American M203 40-mm Underbarrel Grenade Launcher

Americas

• The first upgrade of Argentine Air Force C-130H aircraft has been delivered back by L-3 to the service. A 2011 Foreign Military Sale contract saw for the provision of commercial-off-the-shelf avionics upgrades for a total of five aircraft, with the remaining four aircraft to be upgraded at FAdeA’s (Fábrica Argentina de Aviones) modification facility in Córdoba, Argentina. Under the program, L-3 installed new communication, navigation and air traffic management systems avionics capabilities, as well as a reliability upgrade on critical environmental and power systems to increase mission availability.

• US foreign military sales projection for 2016 is expected to reach $40 billion, down from $46.6 in 2015. The forecast was announced by US Navy Vice Admiral Joe Rixey, who heads the Pentagon’s Defense Security Cooperation Agency (DSCA) at the Farnborough Air Show. Rixey said the total could still fluctuate, depending on what happens in the fourth quarter, but maintained that global demand for US helicopters and other weapons remain strong.

Middle East North Africa

• Patriot anti-missile systems operated by Saudi Arabia have had a 100% success rate according to manufacturer Raytheon. The system has seen service as part of the Saudi-led intervention in Yemen intercepting missile attacks from Houthi rebels. Iran is believed to be arming the rebels with small arms and munitions including scud missiles.

• Production has commenced on Embraer A-29 Super Tucanos destined for Lebanon from the start of 2017. The US government agreed to a $173 million foreign military sales contract in November that will see Embraer’s US partner Sierra Nevada deliver six of the light-attack turboprops to the Lebanese air force by 2019. Once in service, the aircraft will support Lebanon’s fleet of intelligence and reconnaissance Cessna 208B Caravans.

Europe

• A consortium of Thales and Qineteq have chosen the Textron Airland’s Scorpion light attack aircraft for their part of the Air Support to Defense Operational Training (ASDOT) program. The live flying training program will see the government procure a red air and electronic warfare (EW) training service, replacing a number of individual contracts with a single umbrella contract with a single operator. With the deal to last 15 years, the winner is set to earn $1.5 billion over the contract’s lifespan.

• Lockheed Martin has dismissed fears that its joint proposal with MBDA to supply the Medium Extended Air Defense System (MEADS) to Germany could slip into difficulty. While negotiations could well run into 2017, an election year, officials said lawmakers could still approve the deal as long as it was done in the first three months of the year, before the German national election cycle kicks off in earnest ahead of the September vote. MBDA is expected to have its final proposal submitted very soon.

Asia Pacific

• The US and South Korean governments have agreed to deploy the Terminal High Altitude Area Defense (THAAD) battery in Seongju County in North Gyeongsang Province. A HAWK ground-to-air missile battery is already operated at the site and is likely to be moved to make way for the new system. Seongju was chosed as it is out of range of North Korea’s multiple rocket launchers deployed along its border with South Korea, and THAAD can protect key US facilities in Pyeongtaek, Gyeonggi Province and Daegu.

• India is to launch its first “Make in India” initiative for the development of a tactical communication system (TCS) next year. The competition will see two domestic development agency (DA) consortiums awarded contracts to build one TCS prototype each at a cost of $150 million, in 18 months, with the government providing 80% of the prototype’s funding. Once the two prototypes are handed over to the Indian Army, they will undergo technical evaluation, be tested on the ground, and then shortlisted for production. The winner will provide seven TCS systems for plains and desert areas at a cost of $4 billion in the next 10 years.

Today’s Video

• The F-35 at the Farnborough Air Show:

THAAD: In flight
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The Terminal High Altitude Area Defense (THAAD) system is a long-range, land-based theater defense weapon that acts as the upper tier of a basic 2-tiered defense against ballistic missiles. It’s designed to intercept missiles during late mid-course or final stage flight, flying at high altitudes within and even outside the atmosphere. This allows it to provide broad area coverage against threats to critical assets such as population centers and industrial resources as well as military forces, hence its previous “theater (of operations) high altitude area defense” designation.

This capability makes THAAD different from a Patriot PAC-3 or the future MEADS system, which are point defense options with limited range that are designed to hit a missile or warhead just before impact. The SM-3 Standard missile is a far better comparison, and land-based SM-3 programs will make it a direct THAAD competitor. So far, both programs remain underway.

The THAAD System THAAD operations concept
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An ideal multi-layered anti-ballistic missile system should have both land and naval options, as well as theater-level and point defenses backed by a 3rd tier of longer ranged midcourse-defense missiles (q.v. GBI) and/or space-based weapons that can hit the missile during its boost phase. THAAD is a land-based, theater-level, terminal phase defense.

THAAD consists of 4 segments defined as (1) Missile round, (2) Launcher (3) Battle Management/Command, Control, Communications, and Intelligence – BM/C3I, and (4) Radar. The THAAD system can work in centralized mode, in a decentralized group, or fully autonomous launcher mode.

THAAD is designed to be mobile on the ground, in order to react quickly to emerging threats and priorities. This also makes the system much more difficult to take out with preemptive attacks. A THAAD battery will typically operate 3-6 Oshkosh HEMTT-ALS heavy trucks as launch vehicles, each carrying 8 missiles (TL 24-48), complete with an automatic Load Handling System that lifts the missile packs onto the truck. The rest of the system involves Raytheon’s AN/TPY-2 Ground-Based Radar (GBR) for long-range scans, and a mobile Tactical Operations Center (TOC/TFFC) developed by Northrop Grumman and Raytheon.

The size of the HEMTT trucks means that the full THAAD system requires C-17 Globemaster III or C-5 Galaxy aircraft for air transport. It can also be sent aboard ship, of course.

AN/TPY-2
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The THAAD Ground-Based Radar (GBR), now known as the AN/TPY-2, is an X-Band, phased array, solid-state radar developed and built by Raytheon at its Andover, MA Integrated Air Defense Facility. The TPY-2 is employed for surveillance at ranges of up to 1,000 km (600 miles) as well as target identification and target tracking, thanks to its high power output and beam/waveform agility. Targeting information is uploaded to the missile immediately before launch, and continuously updated during the flight.

The TPY-2 is deployed with THAAD, but it’s its own system, with modules for the radar, power, cooling, electronics, and operator control. It can also be used independently as part of a ballistic missile defense infrastructure, and is steadily carving out a wider role beyond THAAD.

THAAD components
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Lockheed Martin’s THAAD missile is powered by a single stage solid-propellant rocket motor with thrust vectoring. After burnout, the booster is separated from the kill vehicle, which continues to the interception point. For exo-atmospheric (outside the atmosphere) maneuvering, the kill vehicle is equipped with a Boeing-developed liquid Divert and Attitude Control System. In the terminal intercept phase, the kill vehicle is guided by a BAE Systems staring focal plane array infrared seeker made with iridium antimonide, whose window is protected in the initial flight phase by a clamshell protection shroud. Once it reaches its target, the THAAD missile uses “hit to kill” technology, as opposed to blowing up a warhead nearby and sending clouds of shrapnel at a target to disable it.

THAAD missiles have an estimated range of 125 miles/ 200 km, and can reach a maximum altitude of 93 miles/ 150 km. By comparison, the Patriot PAC-3 has an estimated range of 12 miles/ 20 km, while the Boeing-Israeli Arrow 2 has an estimated range of 54 miles/ 90 km and can reach a maximum altitude of 30 miles/ 50 km. The naval SM-3 Standard missile, chosen as the theater defense weapon for the US-Japan ABM research program, has an estimated 300 statute mile/ 500 km range, but is believed to have a lower altitude maximum than THAAD.

THAAD 1.0 is deployed as the initial system, with 2 batteries active. THAAD 2.0 development work continues, with a projected finish date of 2018. The Army wants to improve THAAD performance in a high debris environment, add advanced discrimination algorithms, improve engagement coordination with Patriot and Aegis BMD, initiate THAAD engagements using sensor data from other BMDS sources like C2BMC, and perform other upgrades. Unfortunately, delays to the back-end theater-level C2BMC command system mean that some THAAD 2.0 capabilities won’t be fully operational until after 2020.

There have been proposals to more than double THAAD’s range by adding a 21″ diameter booster stage to the current 14.5″ missile, turning it into a 2-stage weapon with increased velocity and maneuverability. Tests were undertaken in 2006, and Lockheed Martin submitted a funding proposal for the FY 2011 budget. Nothing came of that, and the FY 2014 cancellation of the Navy’s next-generation “Next-Generation Aegis Missile” competition appears to have closed that door.

The THAAD Program THAAD: Schedules and Tests

THAAD has been around for a long time, and was originally envisaged as a system that could be fielded on an emergency contingency basis by 1999. Problems with the system made initial fielding over a decade late, but demand from theater commanders remains high.

Launch!
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Between April 1995 and August 1999, there were a total of 11 THAAD flight tests that validated propulsion and seeker systems, and even attempted missile interceptions. The first attempt occurred during the 4th flight on December 13, 1995, but tests 4-9 all failed for mechanical/quality reasons and the first successful intercept did not occur before the 10th flight (FT-10) on June, 10 1999. See this CDI table for further details. In response, notes GlobalSecurity.org:

“Studies done by the military and independent sources cited the following problems in the Theater High Altitude Area Defense (THAAD) Program: First, the program’s compressed flight-test schedule did not allow for adequate ground testing, and officials could not spot problems before flight tests. The schedule also left too little time for preflight testing, postflight analysis, and corrective measures. Second, the requirement that an early prototype system be deployed quickly has diverted attention from the normal interceptor development process and resulted in interceptors that were not equipped with sufficient instruments to provide optimum test data. Third, quality assurance received too little emphasis and resources during component production, resulting in unreliable components. Fourth, the contract to develop the interceptor was a cost-plus-fixed-fee contract, which placed all of the financial risk on the government and did not hold the contractor accountable for less than optimum performance.”

THAAD recorded one more positive test (FT-11) in August 1999. There were no further flight tests before June 2000, when Lockheed Martin received a $3.97 billion Engineering and Manufacturing Development contract. Testing would eventually resume in November 2005. It was conducted cautiously, and went well.

The most common opponent for the THAAD in tests is the Hera, which marries the 2nd and 3rd stages of the Minuteman II ICBM, with the guidance section of the exceptionally accurate Pershing II medium range ballistic missile.

Early THAAD missile
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In December 2006, Lockheed Martin received a $619.2 million contract for initial THAAD fire units that could be usable in an emergency as the upper-tier complement to the Patriot PAC-3 in the Army’s TBMD (Theater Ballistic Missile Defense) system. The expected fielding date for Initial Operational Capability was 2008-2009, fully 10 years after initial hopes for this capability. In the end, technical issues have forced formal IOC back to 2013.

Full acceptance by the US Army and Full Operational Capability is expected in 2017.

THAAD: Budgets and Exports

The US Army was eventually expected to acquire 80-100 THAAD launchers, 18 ground-based radars, and a total of 1,422 THAAD missiles. Two THAAD battalions were planned, each with 4 batteries, plus an additional battery to make 9. Issues with missile production cut order number sharply in 2012 and 2013, and by the time they were resolved, the 2014 budget’s response to spending reductions was to cut the program total to 6 batteries and 11 TPY-2 radars.

Those order cuts may be replaced by THAAD exports.

In September 2008, the UAE requested permission to buy 9 THAAD launchers and associated radars and communications equipment, 147 missiles, etc., in order to field 3 THAAD fire units. A scaled-down contract was agreed at the end of December 2011. In November 2012, Qatar requested 2 fire units of its own.

THAAD’s role in the UAE ansd Qatar will mirror its role in the USA, alongside the Patriot PAC-3 as the UAE’s lower-tier ABM-capable complement.

The beneficiaries of all these orders include:

Contracts and Key Events

Lockheed Martin is the prime contractor for the THAAD system, and the US Missile Defense Agency in Huntsville, AL manages the contracts. Raytheon’s AN/TPY-2 radar system contracts are sometimes covered here, but these radars are also deployed without THAAD, so they’ve been given their own Spotlight article.

FY 2016

THAAD production delayed

July 14/16: The US and South Korean governments have agreed to deploy the Terminal High Altitude Area Defense (THAAD) battery in Seongju County in North Gyeongsang Province. A HAWK ground-to-air missile battery is already operated at the site and is likely to be moved to make way for the new system. Seongju was chosed as it is out of range of North Korea’s multiple rocket launchers deployed along its border with South Korea, and THAAD can protect key US facilities in Pyeongtaek, Gyeonggi Province and Daegu.

July 11/16: The US is to deploy the Terminal High Altitude Area Defense (THAAD) missile defense system in South Korea resulting in ire and protest from China. Deployment of the system, to counter the threat from a nuclear-armed North Korea, comes the same week as sanctions were finally placed on the hermit kingdom’s glorious leader Kim Jong Un for human rights abuses. Pyongyang has hit back calling the decision “an act of war” while China has lodged complaints with US and South Korean ambassadors.

July 5/16: The US Missile Defense Agency has awarded Alaska Aerospace Corp. an $80.4 million contract to construct a gravel road, a couple gravel pads, and a Life Support Area to support testing of the of two THAAD interceptors at Kodiak Island. Congressman Don Young praised the decision saying “As a long-time advocate who helped bring missile defense to Alaska, this contract award is good news for Kodiak and Alaska Aerospace and even better news for the continued security of our country.”

February 9/16: Following some initial reservations over the deployment of the Terminal High Altitude Area Defense (THAAD) system, South Korea is to begin talks with the US over installing the system. Fears held by some in Seoul that a THAAD system on the Korean peninsula would anger China seem to have been alleviated by Sunday’s rocket launch by North Korea. The rocket was apparently launched to send a satellite into orbit and follows last month’s nuclear test which has garnered condemnation from the international community. This combination of testing has increased fears of Pyongyang’s development of inter-continental ballistic missile technology. Any THAAD system would be paid for by the US, with one battery costing around $1.3 billion.

January 15/16: A proposal to deploy Terminal High Altitude Area Defense (THAAD) systems in South Korea is being reviewed by the government. A plan sent by the US forces based in the country is something Washington has wanted to do for some time as a wider ballistic missile defense plan for the region. Seoul has been reluctant to have it deployed as it may effect the often tentative relations with China, but recent nuclear tests by North Korea have put the idea back on the table.

December 30/15: Lockheed Martin has been given an additional order to provide an undisclosed number of production lots 7 and 8 Terminal High Altitude Area Defense (THAAD) interceptors, one-shot weapons and related support services to the Missile Defense Agency. The $528.5 million contract modification sees an extra $144.6 million added to a pre-existing contract and will be completed by September 30 2019. The THAAD system protects the US and allied customers from short, medium and intermediate ballistic missile threats, and is operated and developed under the umbrella of the Missile Defense Agency.

December 1/15: South Korea may not need to install the THAAD missile defense just yet after the most recent failure of North Korea’s missile tests. It had been apparent that Pyongyang had been planning to test off the east coast of the peninsula after announcing a no-sail zone earlier this month. The failure will be a setback to North Korean plans to equip its submarines with below surface ballistic launching capabilities. Observers noted that the missile broke up underwater and failed to break the waters surface. Initial photographs of leader Kim Jong-un watching a successful test were quickly dismissed as state propaganda.

November 27/15: Japanese defence minister Gen Nakatani has raised the possibility of installing the THAAD missile defense system in the country. The system would be installed to protect against any threat that may come potentially from North Korea, who have raised the possibility of testing missiles. Pyongyang announced a no sail zone off the east coast of the peninsula earlier this month between November 11 and December 7. Nakatani’s comments come along with speculation that South Korea and the US have been discussing the installation of THAAD by Seoul during talks over deterrence methods to threats from the North. These rumors have been downplayed by both countries.

November 24/15: Task Force Talon, the Terminal High Altitude Area Defense (THAAD) battery in Guam have completed their replacement of missiles. The exercise took place between September and November and involved a total replacement of its existing Interceptor stock to help maintain combat readiness. With a force of 200 soldiers, Task Force Talon is about a third of the size of the traditional air defense Patriot battalion. The exercise comes at a time of increased activity in the Pacific region and talks of installing further THAAD systems in South Korea which may be seen as a threat to an increasingly aggressive China.

November 3/15: A Standard Missile-3 Block IB (SM-3) interceptor failed to shoot down an extended medium-range ballistic missile (EMRBM) on Saturday following a malfunction, with the Terminal High Altitude Area Defense (THAAD) interceptor system instead being used to take out the target. The SM-3 was used successfully earlier in October to shoot down a similar target off the north-west coast of Scotland, with this latest test part of a multiple-threat scenario test conducted in the western Pacific.

In addition to the interception of the EMRBM, an SM-2 Block IIIA was also used to simultaneously defend against a target drone aircraft, with the THAAD system also taking down a Short Range Air Launch Target (SRALT). The $230 million interception tests also involved the Aegis BMD system, including AN/SPY-1 radar system, as well as transportable AN/TPY-2 missile defense radars.

October 13/15: Lockheed Martin’s production of THAAD interceptors has been delayed owing to computer glitches. Only three out of 44 systems – destined for use by the Missile Defense Agency – have been delivered, with a revised delivery schedule now in place.

FY 2015

THAAD into South Korea?

March 19/15: Pentagon review. A major review has been launched by the Pentagon to assess the current state of play of missile defense systems, capabilities and programs, seeking to update a previous review from 2011. The Patriot is likely to come under scrutiny, as well as the THAAD system.

Feb 6/15: China allegedly warns South Korea on THAAD. For all of the questions that surfaced last May about whether South Korea would get THAAD (or wants it), or U.S. troops in R.O.K. would deploy one for themselves, or if South Korea’s on indigenous efforts would be up to snuff, the Chinese appear to be most worried about the U.S.’s system. Yonhap reports that Hong Lei, the Chinese foreign minister, warned South Korea a day after an exchange took place between the two countries’ defense ministers.

FY 2014

Purchases: USA, UAE; GAO and DOT&E report on THAAD performance and testing; THAAD and Air-Sea Battle; THAAD into South Korea? THAAD TFCC
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Sept 25/14: UAE. Lockheed Martin Missiles and Fire Control in Dallas, TX receives an $11.1 million firm-fixed-price modification to the UAE’s THAAD contract, covering delivery of single missile round transportation containers, peculiar support equipment, THAAD fire control and communication spares, and launcher spares. All funds are committed immediately, and the modification brings the contract’s total cumulative face value to $349.7 million.

Work will be performed at, Dallas, TX; Lufkin, TX; Ocala, FL; and Camden, AR, with an expected completion date of June 30/15. The US Missile Defense Agency in Huntsville, AL (HQ0147-12-G-9000, 0001, 0069).

Sept 24/14: Lockheed Martin in Sunnyvale, CA receives a $274.8 million ceiling modification to previously awarded sole-source, indefinite-delivery/ indefinite-quantity contract.

The announcement doesn’t say what for, but it’s THAAD’s contract, and just $2.7 million in FY 2014 USAF RDT&E budgets are committed immediately. The ordering period runs through January 2017. Work will be performed at Sunnyvale, CA and Huntsville, AL. The US Missile Defense Agency in Huntsville, AL manages the contract (HQ0147-12-D-0001).

Aug 7/14: USA. A $124.6 million sole-sourced fixed-price contract from the US government for THAAD ground components: launchers, launcher spares, fire control and communication spares, and support equipment. All funds are committed immediately, using FY 2014 MDA procurement budgets.

Work will be performed at Dallas, TX; Lufkin, TX; Huntsville, AL; Sunnyvale, CA; and Camden, AR, with an expected completion date of Aug 7/17 (HQ0147-14-C-0011). See also Lockheed Martin, “Lockheed Martin Awarded $124.6 Million THAAD Contract”.

May 27/14: Korea. The US government is considering THAAD as an option to protect American forces in South Korea, and has conducted a site survey for possible South Korean locations. The issue is that the ROK is developing its own national KAMD missile defense system, and continues to reiterate that it won’t be part of a joint system with the USA and Japan. Which means that interoperability with systems like THAAD is a potential issue.

The Americans are thinking in geo-political terms, as a visible response to North Korea, and there’s also that standard underlying flavor of “of course they want to do it our way”:

“The U.S. could deploy its own Thaad system to South Korea temporarily, and then, in time, replace it with a [THAAD] system purchased by Seoul, a defense official said. Or it could allow South Korea to purchase its own, and jump ahead in the queue for the system, the official said.”

Very American. The thought that perhaps South Korea is happy with its Green Pine radars that sit in the TPY-2’s niche, frequently says that terminal defense is all it can use, and would rather deploy its own Cheolmae 4-H missile developed in conjunction with Russia, never enters the picture. On the other hand, the Americans might reply that their own forces would rather have THAAD’s protection, that more than 2 long-range radars might be a good idea against an enemy whose war plan includes in-depth terrorist attacks, and that a common equipment roster of PATRIOT PAC-3 and THAAD systems could create a basis for independent command and control systems that can still cooperate. Sources: Wall St. Journal, “Washington Considers Missile-Defense System in South Korea”.

April 11/14: GAO Report. The Pentagon has been reluctant to develop a life-cycle cost estimate for BMD in Europe, on the dubious grounds that it isn’t a separate program. that’s why GAO-14-314 concerns itself with EPAA’s costs and implementation issues. THAAD batteries are an important ancillary part of that defense, but their role isn’t clear yet. The 6 batteries have an estimated O&M cost of $6.5 billion over 20 years, but that $54.17 million per battery per year involves basing in the USA. Costs for basing in Europe are expected to be higher. How much higher? We don’t know, because the US MDA and US Army can’t agree on how to do the analysis. How confused are things?

“DOD officials stated that they are examining options for forward-stationing some THAAD batteries overseas. Doing so would likely increase operating and support costs due to higher operational tempo, contractors that are deployed with the system, additional needed security, life-support facilities such as barracks and a mess hall, and site preparation for the equipment. For example, MDA recently estimated that operating and support costs for one THAAD battery in Guam could be $11 million higher annually than if the battery was located in the continental United States. However, this estimate does not include costs for military personnel, fuel, site activation, transportation, or some contractor costs. Further, costs could be even higher if an element is located at an austere location due to additional costs for site preparation, security, transportation, and some contractor costs. This estimate also assumes continued contractor support… [but] DOD has not yet completed a business-case analysis as part of determining the long-term support strategy…. the THAAD business-case analysis remains incomplete as of December 2013, and there is no firm deadline to complete the analysis.”

Meanwhile, the TPY-2 radar deployments to Turkey (2011) and CENTCOM (2013), still can’t share information and work together, because that hasn’t been worked out. That will hurt all EPAA systems, but THAAD in particular would have benefited.

March 14/14: GAO report. The GAO releases GAO-14-248R, regarding the USA’s EPAA plans for defending Europe from ballistic missiles. THAAD is included in passing.

THAAD was scheduled to get upgrades by 2015 that would help it distinguish real warheads within debris fields. Part of that has been implemented, but the full version won’t be ready until 2017. A 2nd set of upgrades scheduled for 2018 would have improved interoperability with other missile defense systems, and allowed launches using the C2BMC system’s composite tracking from multiple sources. Those interoperability software upgrades will be late, leaving very little time to ensure that they work during Phase 3 testing for the European EPAA project. In addition, the C2BMC capability in question has been pushed off until 2020 “or later”.

Jan 28/14: DOT&E Testing Report. The Pentagon releases the FY 2013 Annual Report from its Office of the Director, Operational Test & Evaluation (DOT&E). THAAD is included, and the overall report is fairly positive.

The FTI-01 test saw THAAD hit 1 incoming missile, and go into the debris field of an intercepted target by design. DOT&E describes the test as “performance in a significantly different portion of the battlespace than previous missions with increased ground range, interceptor flight time, and closing velocity, as well as new target re-entry vehicle characteristics.”

On the flip side, THAAD experienced data latency with Aegis BMD messages when the primary network connection was unavailable, and there were track correlation concerns with the AN/TPY-2 (TM) radar. Mission software reporting was sometimes incorrect, and some critical faults during testing weren’t relayed through the system at all. Overall, the 39 equipment & organizational conditions around Conditional Materiel Release of the first 2 THAAD batteries in February 2012 are down to 31, with 4 closed in FY13 (verification of technical manuals, procedures for a post-launch launcher inspection, verifying capability against medium-range targets, and procedures and equipment to measure soil density for emplacement). In addition, the classified DOT&E February 2012 THAAD and AN/TPY-2 Radar Operational and Live Fire Test and Evaluation Report contained 7 more recommendations. Fixes and testing of remaining conditions are scheduled through 2017.

Oct 22/13: Air-Sea Battle. The US Army would rather not become irrelevant to the Pacific Pivot, and they have some useful ideas to that end. Military.com acquired a copy of a Sept 25/13 paper, called “The Army’s Role in Countering Anti-Access and Area Denial: Support to Air-Sea Battle.” The paper reportedly proposes a combination of advanced air defense and short-range strike missiles, as a potential response that’s less overtly aggressive than naval battlegroups and less expensive to maintain on station, but still raises the bar for any aggressor. If Navy or Air Force units have to escalate afterward, they’d do so with a defensive umbrella in place that helps cover their entry.

Systems targeted for this approach include THAAD, as well as the short-range PATRIOT and even land-based EPAA-type SM-3 missiles for air and missile defense. Striking power would come from MLRS or HIMARS units firing 300 km ATACMS missiles, and the paper also contemplates the development of additional land-based missiles. They would include anti-ship versions of ballistic missiles, and a 1,000 km class deep precision strike ballistic missile. If this looks like a deployable lite-brand mirror of A2/AD (Anti-Access/ Area Denial) strategies being pursued by China et. al., well, it sort of is. Sources: Defense Tech, “Army Pushes To Upgrade Missile Defense Systems || Additional background from: Breaking Defense, “Army Shows Cheek, Elbows Its Way Into AirSea Battle Hearing” (Maj. Gen. Gary Cheek, Army point for Air-Sea Battle) | Eaglespeak, “The Anti-Access/Area Denial U.S. Army and the Air/Sea Battle” | Midrats podcast, “Episode 195: The Pacific Pivot Ground Element”.

FY 2013

Purchases: US, UAE; Requests: Qatar, UAE; FTO-1. FTO-1 launch
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Sept 20/13: US/ UAE. Lockheed Martin Space Systems Company in Sunnyvale, CA receives a $3.92 billion fixed-price-incentive-firm contract modification for THAAD interceptors from the USA and United Arab Emirates, and associated ground hardware for the UAE.

The UAE’s $2.706 billion order is a continuation of purchases (q.v. Dec 30/11, June 5/12) under the Sept 9/08 and Nov 5/12 Foreign Military Sales cases, which encompass 3+ Fire Units and up to 195 missiles. Under this order, they’ll receive 192 THAAD interceptor missiles, 16 Single missile round containers, and 16 Active leak sensor systems. Their total THAAD missile orders now stand at 288, and a priced option (Letter of Offer and Acceptance Amendment 01) could create additional orders. Production will run into Lot 6.

The US Army’s $862.4 million portion finalizes the production Lot 4 contract, and the order could rise to $1.215 billion and 110 interceptor missiles if next year’s $352.7 million FY 2014/ Lot 5 option is exercised by Dec 31/13. Current contracts involve 5 US Army THAAD batteries, with final Battery 3 & 4 deliveries expected by the end of the calendar year. These missiles are part of Battery 5.

Deliveries under these orders will take place from FY 2015 – FY 2019. Work will be managed in Sunnyvale, CA, with performance at Lockheed Martin’s Pike County facility in Troy, AL (missiles); Huntsville, AL (US MDA); and Camden, AR (launchers and control units). The Missile Defense Agency in Huntsville, AL acts as the Army’s contracting agent, and performs the same role for the UAE (HQ0147-07-C-0196). See also Lockheed Martin, Sept 23/13 release.

US & UAE order

Sept 10/13: FTO-1 Test. A successful joint test of AEGIS BMD and land-based THAAD missiles from the Pacific Kwajalein Atoll/Reagan Test Site destroys 2 medium range target missiles.

The test involved full inter-operation. A land-based TPY-2 radar was positioned forward as the warning radar. It acquired the targets, and passed that onto the joint C2BMC (Command, Control, Battle Management, and Communications) system. C2BMC cued DDG 74 USS Decatur, outfitted with AEGIS BMD 3.6.1 and the SM-3 Block IA missile. Decatur acquired the track, then launched its SM-3 and killed its target.

C2BMC also passed the track to a land-based THAAD battery’s own TPY-2 radar, which provided the intercept guidance for a successful pair of THAAD missile shots. The 2nd THAAD missile was actually aimed at the SM-3’s MRBM, in case it had failed to achieve intercept, but that turned out not to be necessary this time. Sources: US MDA, Sept 10/13 release | Lockheed Martin, Sept 11/13 release | Raytheon, Sept 10/13 release.

July 17/13: UAE. Raytheon Integrated Defense Systems, Woburn, MA receives an $83.8 million sole-source, cost-plus-incentive-fee, and cost-plus-fixed-fee contract modification from the United Arab Emirates (UAE). They’ll provide software updates, contractor logistic support, radar repair and return, and technical services for the AN/TPY-2 radars in the UAE’s THAAD missile defense batteries.

Work will be performed in Woburn, MA, White Sands Missile Range, NM, and the UAE through Sept 30/18. The US Missile Defense Agency in Huntsville, AL acts as the UAE’s FMS agent (HQ0147-12-C-0005).

June 18/13: UAE upgrade. Raytheon touts improvements to “a Foreign Military Sales (FMS) AN/TPY-2 radar”. So far, the only publicly-announced sale has been to the UAE, who will get a TPY-2 radar with 8 redesigned circuit card assemblies that improve the radar’s capabilities, while incorporating technologies and processes that weren’t available when Raytheon delivered the first AN/TPY-2 in 2004.

The new cards will be inserted into all new AN/TPY-2 radars Raytheon produces, but the USA is just about done with planned orders. The good news is, a swap-in upgrade shouldn’t be too expensive. Raytheon.

THAAD slips
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April 26/13: The GAO looks at the Missile Defense Agency’s full array of programs in report #GAO-13-342, “Missile Defense: Opportunity To Refocus On Strengthening Acquisition Management.” The good news is that the remainder of the missiles for the first 2 THAAD batteries have now been fixed and delivered. The bad news is that despite strong demand from theater commanders, the overall program has been reduced from a planned 9 batteries to 6, owing to budget constraints. In tandem, the planned number of AN/TPY-2 radars was cut from 18 to 11.

FY 2012 saw production resume with a July contract, but production is 4 months behind after faulty memory devices were found in some missile mission computers. To recover those delays, production will be ramped up from 3/month to 4/month – which is still well below the 6/month planned at this stage of the program. Missile batteries 3 & 4 will also incorporate a new “Thermally Initiated Venting System,” which keeps the missiles from launching or blowing up if overheated. It was redesigned in 2011, and is performing better, but the standards have never been applied to a missile this size. This part of the system may ultimately need a “best we can reasonably do” waiver before full acceptance of THAAD by the US Army in 2017. Another 320 interceptors will be produced from FY 2013 – 2017.

April 3/13: To Guam. The Pentagon announces that:

“The Department of Defense will deploy a Terminal High Altitude Area Defense System (THAAD) ballistic missile defense system to Guam in the coming weeks as a precautionary move to strengthen our regional defense posture against the North Korean regional ballistic missile threat.”

North Korean missiles may have a questionable ability to reach the USA, but Guam is another matter. It’s a US territory, so protecting its citizens matters as much as protecting its strategic harbor and airfield.

Nov 5/12: Qatar. The US DSCA announces [PDF] that Qatar wants to join its neighbor the UAE, and field 2 THAAD batteries of its own.

Their request is worth up to $6.5 billion, and includes up to 12 THAAD Launchers, 150 THAAD missiles, 2 THAAD Fire Control and Communications units, 2 AN/TPY-2 THAAD Radars, and 1 Early Warning Radar (EWR). The USA would also sell them the required trucks, generators, electrical power units, trailers, communications equipment, fire unit test & maintenance equipment, system integration and checkout, repair and return, training, and other support.

The principal contractor is Lockheed Martin Space Systems Corporation in Sunnyvale, CaA, and the sub-contractor is Raytheon Corporation in Andover, MA. Implementation of this proposed sale will require undetermined but periodic travel of up to 13 U.S. Government and contractor representatives for delivery, system checkout, and training.

Qatar request

Nov 5/12: UAE. The US DSCA announces [PDF] the United Arab Emirates official request to expand its THAAD purchases. They’re interested in another 9 THAAD launchers and 48 missiles, plus the accompanying test components, repair and return, training, and support.

The estimated cost is up to $1.135 billion, and the principal contractors would be Lockheed Martin Space Systems Corporation in Sunnyvale, CA and Raytheon Corporation in Andover, MA. Raytheon is an odd mention, since the DSCA request doesn’t include another AN/TPY-2 radar. There are no known offset agreements proposed in connection with this potential sale, and implementation won’t require the assignment of any additional U.S. Government or contractor representatives to the UAE. See Sept 9/08 for their previous request, which was only partially fulfilled in the Dec 30/11 contract.

UAE request

Oct 25/12: FIT-01. Pacific Chimera (aka. Flight Test Integrated-01) features a combination of land and sea missile defense systems, who go 4/5 against a combination of ballistic missile and cruise missile targets. The USA’s Command and Control, Battle Management, and Communications (C2BMC) system acted as FIT-01’s command and control backbone.

The Medium Range Ballistic Missile E-LRALT (Extended Long Range Air Launch Target) was launched out of a C-17, tracked by a US Army AN/TPY-2 radar on Meck Island, and destroyed by its companion THAAD missile.

A pair of Short Range Ballistic Missile targets were launched from a platform in the ocean. One was destroyed by a US Army PATRIOT PAC-3 system, but the USS Fitzgerald’s [DDG 62] attempt to intercept the 2nd SRBM target with a long-range SM-3 Block 1A missile failed. The problem turned out to be a faulty IMU chip.

The USS Fitzgerald had better luck with an SM-2 missile against a low flying cruise missile target, and the Army’s PATRIOT PAC-3 battery racked up a cruise missile kill of its own. US MDA | Lockheed Martin | Raytheon.

FY 2012

UAE. State of tests. THAAD test launch
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July 17/12: A $150 million contract modification covers a combination of support equipment and additional launchers for Batteries 1 and 2; continuing production of missile Lots 3 & 4; and the manufacturing and delivery of Battery 5 launchers, THAAD fire control and communications.

It’s funded with FY 2010, 2011, and 2012 procurement dollars; and $10 million in FY 2010 funds will expire at the end of the current fiscal year, on Sept 30/12. Deliveries will begin in FY 2014, and complete in FY 2016. This work will be managed in Sunnyvale, CA, with performance in Huntsville, AL, and Camden, AR (HQ0147-07-C-0196).

June 5/12: US/UAE missiles. The US MDA awards Lockheed Martin Space Systems Co. in Sunnyvale, CA an unfinalized, not-to-exceed $2.024 billion contract for a minimum of 138 THAAD interceptor missiles. The buy includes at least 42 American missiles under Lots 3 and 4, plus the United Arab Emirates’ unfinalized buy of 96 interceptors (HQ0147-12-G-9000, q.v. Dec 30/11 entry). It’s done as a joint purchase, in order to save money. Finalization of both contracts is expected by Nov 30/12.

Work will be managed in Sunnyvale, CA, with final assembly performed in Troy, AL. The performance period extends from June 4/12 through July 31/18. This action was synopsized as a sole-source requirement to LMSSC in FBO.gov, and 1 response was received. The US Missile Defense Agency’s THAAD Program Office at Redstone Arsenal, AL manages the contract (HQ0147-07-C-0196).

US/ UAE

April 20/12: The US GAO releases “Opportunity Exists to Strengthen Acquisitions by Reducing Concurrency.” That bland-sounding title masks critical coverage of THAAD’s acquisition approach, which won’t be fielding operational missile batteries until July 2012:

“Production issues forced MDA to slow production of the THAAD interceptors… A flight test originally scheduled for the second quarter of fiscal year 2011 was delayed until fiscal year 2012 due to the availability of air-launched targets and then subsequently was canceled altogether. This cancellation has delayed verification of THAAD’s capability against a medium-range target.

MDA awarded a contract to produce THAAD’s first two operational batteries in December 2006 before its design was stable… At that time, MDA’s first THAAD battery, consisting of 24 interceptors, 3 launchers, and other associated assets, was to be delivered to the Army as early as 2009. In response to pressure to accelerate fielding the capability, THAAD adopted a highly concurrent development, testing, and production effort that has increased program costs and delayed fielding of the first THAAD battery until early fiscal year 2012… During fiscal year 2011, after several production start-up issues, 11 of the expected 50 operational interceptors were delivered.[Footnote 18] Consequently, the first battery of 24 interceptors was not complete and available for fielding until the first quarter of fiscal year 2012 – more than 2 years later than originally planned. The same issues have delayed the second battery as well. Although the launchers and other components for the second battery were completed in 2010, the full 50 interceptors necessary for both batteries are not expected to be delivered until July 2012.”

March 27/12: Lockheed Martin announces a $66 million contract to continue THAAD development. Consultation with the firm reveals that this is part of the $515.4 million contract announced on Feb 3/12.

Feb 3/12: A maximum $515.4 million sole-source, indefinite-delivery/ indefinite-quantity contract to Lockheed Martin Corp. in Sunnyvale, CA, for 5 years of THAAD upgrade development, integration, and testing. Examples of task orders include, but are not limited to, communications upgrades, obsolescence mitigation, flight and ground testing; and spiral development to further integrate THAAD in the broader Ballistic Missile Defense System architecture on land, sea and air.

Work will be performed in Sunnyvale, CA, and Huntsville, AL from Feb 1/12 through Jan 31/17. FY 2012 RDT&E (research, development, test and evaluation) funds will be used to incrementally fund the initial orders (HQ0147-12-D-0001).

Jan 17/12: DOT&E. The Pentagon releases the FY2011 Annual Report from its Office of the Director, Operational Test & Evaluation (DOT&E). THAAD was included, and the results can be described as measured good news.

Test FTT-12 demonstrated THAAD’s ability to intercept 2 simultaneous short-range targets, while demonstrating the full battle sequences from planning to intercept, and collecting “technical data on intercepts far off the radar boresight and on performance against unique threat characteristics.” Reliability has improved from 2010, and THAAD also completed Phase 1 of its ground test program. There’s a bit more testing to go, but that was a necessary step toward an expected FY 2012 material readiness release, and transfer of the first 2 fire units from the US MDA to active service in the US Army.

The flip side is that THAAD’s lethality testing still has some gaps that need to be resolved, and some of that testing will have to take place after THAAD is released to the Army. Fortunately, the MDA targets program returned Coleman air-launched targets to flight in July 2011, removing a big barrier to testing. Target development and testing for the longer-range THAAD flight tests against medium-range missiles are set to start in FY 2012.

Dec 30/11: APY-2. Raytheon Integrated Defense Systems in Woburn, MA receives a sole-source, maximum $363.9 million letter contract for 2 AN/TPY-2 radars. The contract will be finalized later. Work will be performed in Woburn, MA, and the period of performance is Dec 30/11 through March 30/15 (HQ0147-12-C-0006).

Raytheon’s release specifically identifies them as going “…to the U.S. Army as the radar component to the Terminal High Altitude Area Defense (THAAD) missile defense system”. Some TPY-2 radars have also been deployed independently.

Dec 30/11: UAE order. A series of contracts kick off the UAE’s THAAD deal (q.v. Sept 9/08 entry), which is estimated at $3.48 billion. It’s the 1st export sale for the THAAD system.

Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a sole-source letter contract at a total not-to-exceed price of $1.96 billion to supply the United Arab Emirates with 2 full THAAD Systems, and provide support services. Work will be managed in Sunnyvale, CA, with final assembly performed in Troy, AL. Performance extends from Dec 30/11 through June 30/16. The US Missile Defense Agency in Huntsville, AL manages the contract, on behalf of its FMS client.

Raytheon Integrated Defense Systems in Woburn, MA receives a sole-source letter contract, with a not-to-exceed value of $582.5 million, as an undefinitized contract action (UCA) to provide 2 AN/TPY-2 radars, spares, and training services to the United Arab Emirates. Work will be performed in Woburn, MA, and the period of performance is Dec 30/11 through Sept 30/18. This contract will be finalized in June 2012. The US Missile Defense Agency in Huntsville, AL manages the contract, on behalf of its FMS client (HQ0147-12-C-0005). See also Lockheed Martin | Raytheon | Bloomberg | AP | Reuters | Voice of America.TEXT

UAE order

Nov 1/11: The US Missile Defense Agency (MDA) awards Raytheon IDS of Woburn, MA a maximum $307.6 million indefinite-delivery/ indefinite-quantity (IDIQ) contract. Under this new contract, Raytheon will maintain software required to operate “the X-band family of radars,” and perform and Ballistic Missile Defense System test planning, execution and analysis. Discussions with Raytheon personnel confirmed that the funding applies to the XBR radar on the SBX naval platform, as well as their AN/TPY-2 radars (THAAD, European missile defense, deployed in Israel & Japan), and a “Ground Based Radar Prototype” that they’re working on as a technology demonstrator.

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

FY 2011

NGAM Phase 1. TPY-2.

May 9/11: Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $60 million fixed-price-incentive, firm target contract modification to deliver 6 HEMMT transporters, 6 missile round pallets, and associated spares to support THAAD batteries 3 & 4. This order raises the total contract value to date to $1.64 billion.

Work will be managed in Sunnyvale, CA, with final assembly performed in Troy, AL; the performance period is extended from April 2011 to August 2013. $60 million in FY 2010 procurement funds will be used to fund this contract modification in its entirety (HQ0147-07-C-0196, #P00054).

April 7/11: TPY-2. Raytheon Integrated Defense Systems in Woburn, MA receives a $14 million sole-source cost-plus-fixed-fee contract modification to maintain and improve the AN/TPY-2 radar’s software. Work will be performed in Woburn, MA from April 2011 through June 2011, and $4 million in FY 2011 research, development, test and evaluation funds will be used to incrementally fund this effort.

This award beings total contract awards so far under (HQ0006-03-C-0047) to $1.936 billion.

April 7/11: NGAM Phase 1. The US Missile Defense Agency (MDA) announces a trio of Phase 1 cost-plus-fixed-fee contracts to Boeing, Lockheed Martin, and Raytheon to work on the Next Generation AEGIS Missile/ SM-3 Block IIB. The firms will perform concept definition and program planning for their offerings, and the competition will winnow down as the MDA picks which concept(s) to develop further.

Lockheed Martin Corp. in Bethesda, MD wins a $43.3 million contract, which could allow the firm to build on previous talk of expanding THAAD to the same 21″ diameter as SM-3 Block II missiles, in order to increase its speed and range.

March 24/11: The US GAO issues report #GAO-11-372: “Missile Defense: Actions Needed to Improve Transparency and Accountability.” Key excerpts:

“However, the agency was unable to meet all of its goals for Terminal High Altitude Area Defense, a system used to defend against targets in their last phases of flight… MDA finalized a new process in which detailed baselines were set for several missile defense systems… [but] GAO found its unit and life-cycle cost baselines had unexplained inconsistencies and documentation for six baselines had insufficient evidence to be a high-quality cost estimate… GAO makes 10 recommendations for MDA to strengthen its resource, schedule and test baselines, facilitate baseline reviews, and further improve transparency and accountability. GAO is also making a recommendation to improve MDA’s ability to carry out its test plan. In response, DOD fully concurred with 7 recommendations. It partially concurred with 3…”

March 18/11: US order. A $695 million fixed-price incentive and cost-plus-fixed-fee contract modification for 48 interceptors, 6 launchers, 4 fire control units, and other ground equipment required to support THAAD batteries 3 & 4.

This finalizes the Sept 15/10 contract. $144.8 million in FY 2010 procurement funds are added to $119.2 million in FY 2010 funds used for the initial allocation (TL: $264 million), then another $430.9 million in FY 2011 funds brings us to the $695 million grand total. A $94.8 million option for additional launchers could bring the total to $789.8 million.

Work will be managed in Sunnyvale, CA, with final assembly performed in Troy, AL through December 2013 (HQ0147-07-C-0196). See also Lockheed Martin.

Feb 20/11: UAE. Reuters quotes Lockheed Martin VP of International Air & Missile Defence Strategic Initiatives Dennis Cavin, who says that “We are very close to finalising documentation necessary to have a successful [THAAD contract] for the UAE. This spring, the U.S. government will make an announcement…”

That announcement is expected to be a government-to-government deal worth up to $7 billion [vid. Sept 9/08 entry], making the UAE THAAD’s 1st export customer. The US government is expected to send a letter of agreement in the next few months, after which the UAE could start negotiations with contractors on production schedules, and support agreements with Lockheed and Raytheon.

Feb 18/11: A sole-source $8.9 million cost-plus-incentive-fee contract modification to Raytheon Integrated Defense Systems in Woburn, MA. Raytheon will perform superdome obsolescence redesign, including system enhancements, technological improvements, and new products supporting “the X-band radars.”

Work will be performed in Woburn, MA from February 2011 through June 2011, and $2.5 million in FY 2011 Research, Development, Test and Evaluation funds will be used to incrementally fund this effort (HQ0006-03-C-0047, HQ0147).

Nov 10/10: TPY-2. A sole-source $25.2 million cost-plus-incentive-fee contract modification to Raytheon Integrated Defense Systems in Woburn, MA, to refurbish AN/TPY-2 radar #4.

Work will be performed in Woburn, MA through August 2011, funded by FY 2010 – 2011 Research, Development, Test & Evaluation funds (HQ0006-03-C-0047).

Oct 4/10: An $18 million contract modification to Lockheed Martin Space Systems Co. in Sunnyvale, CA, who will begin manufacturing 49 “redesigned mid-body heat shields for incorporation into THAAD interceptors” on mid-body substrate assemblies. Asked for details, a Lockheed Martin spokesperson said that this wasn’t an immediate concern, but:

“The redesign will eliminate microcracking which was identified during ground testing as a potential risk over a long period of time. This contract implements the heat shields on the 49 interceptors now in production. Lockheed Martin remains focused on ensuring THAAD is reliable, affordable and effective.”

Work will be managed by LMSSC in Sunnyvale, CA, with final assembly performed at Lockheed Martin’s Pike County Operations interceptor production facility in Troy, AL. Work is projected through February 2012 (HQ0147-07-C-0196).

FY 2010

7 TPY-2 radars delivered to date. Tests. Production delays. Test launch
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Sept 24/10: TPY-2. A sole-source fixed-price-incentive-fee modification to Raytheon Integrated Defense Systems in Woburn, MA for AN/TPY-2 radar #8. The target price is $189.8 million. Work will take place from September 2010 through October 2012, and FY 2010 procurement funds will be used to fund it (HQ0006-03-C-0047).

Raytheon’s release adds that the firm delivered the 7th radar earlier in 2010, on cost and ahead of schedule.

Sept 15/10: US order. A not to exceed $298 million contract modification to Lockheed Martin Space Systems Co. (LMSSC) in Sunnyvale, CA to manufacture and deliver 26 THAAD interceptor missiles, representing the first lot buy of interceptors in support of the Battery 3 and 4 procurement (total of 48 missiles). the remainder of Battery 3 & 4’s missiles will be ordered in a future production lot.

Aviation Week confirms that Pentagon procurement chief Ashton Carter has approved THAAD production. The 48 missiles to equip Batteries 1 & 2 can now have optical block switches integrated, moving their delivery date from June 2010 to May 2012. A production interceptor will be flight tested with the optical block switch in spring 2011.

Work will be managed in Sunnyvale, CA, with final assembly performed at Lockheed Martin’s Pike County Operations in Troy, AL, and will continue through June 2013 (HQ0147-07-C-0196). Looks like the optical block switch problems are resolved.

Sept 1/10: TPY-2. A $22.6 million sole-source cost-plus-award-fee contract modification to Raytheon Integrated Defense Systems in Woburn, MA will continue support services for the AN/TPY-2 radar’s flight and ground testing.

Work will be performed in Woburn, MA from September 2010 through June 2011. $1,443,793 in FY 2010 research, development, test and evaluation funds will be used to incrementally fund this effort (HQ0006-03-C-0047).

Aug 24/10: TPY-2. Raytheon Integrated Defense Systems in Woburn, MA received a sole-source contract modification for $43 million continue software maintenance in support of the AN/TYP-2 radar. The modification includes both fixed-price and cost-plus-award-fee line items, and work will be performed in Woburn, MA. The performance period is through March 2011. FY 2010 & 2011 Research, Development, Test and Evaluation funds will be used, and the US Missile Defense Agency manages the contract (HQ0006-03-C-0047). See also Raytheon release.

Aug 17/10: Frozen. Reuters reports that the problems with Moog’s optical block switch have frozen a pending $419 million production contract for 26 missiles. As the issue drags on, Lockheed Martin has offered to take financial responsibility for costs related to any further production delays. The firm reportedly has a solution that could get clearance in September, with interceptor missile deliveries beginning again by the end of 2010.

Army Lieutenant General Patrick O’Reilly adds that the Missile Defense Agency is eyeing potential competitive bids worth as much as $37 billion over the next 5 years, as it moves away from sole-source contracts. That could prove difficult when it comes to proprietary technologies like missiles, unless it’s a harbinger of more competition between missile types. With the advent of land-based SM-3s from Raytheon, that’s a very real possibility for THAAD. Reuters.

July 29/10: Delay. Bloomberg News reports that a combination of newly-added requirements and sub-contractor issue will delay delivery of the first 24 THAAD missiles by up to a year, and may delay the 2nd batch of 24 by 10 months or more. Lockheed Missiles and Fire Control was supposed to hand over the first THAAD missiles by Sept 30/10, but that is now expected to happen only by 2011. The next lot of 24 is due by June 2011, but may not arrive until April 2012.

The problem has several causes. In the middle of flight testing, the US Missile Defense Agency decided it wanted a safety switch to prevent accidental launches. Moog, Inc. in East Aurora, NY was the subcontractor, but its switches failed testing. The result is a set of missiles waiting for a final critical part that wasn’t in the initial specifications, a contractor who can’t finalize delivery, and an initial American THAAD battery at Fort Bliss, TX who is restricted to training.

Moog reportedly shut down its production line from March to May 2010 to fix the design, and delivered the first improved switch for testing in July 2010. Lockheed Martin also stepped in, assigning engineers to oversee all design and manufacturing process improvements at Moog.

July 29/10: Test. A THAAD system successfully intercepts its target during a low-endo-atmospheric MDA test at the Pacific Missile Range Facility in Hawaii. Soldiers of the 6th Air Defense Artillery Brigade of Fort Bliss, Texas, conducted launcher, fire control and radar operations, and were not informed of the exact launch time for the unitary missile target. The AN/TPY-2 radar, achieved all test objectives: acquiring the target, discriminating the lethal object, providing track and discrimination data to the fire control, and communicating with the in-flight THAAD interceptor. The fire control software, jointly developed by Raytheon and Lockheed Martin, also performed successfully. This was the 7th successful intercept in 7 attempts for the operationally-configured THAAD system.

Several missile defense assets and emerging technologies observed the launch and gathered data for future analysis. Participants included the Command and Control, Battle Management and Communications (C2BMC) system, and elements of the U.S. Army’s PATRIOT system which conducted engagement coordination with THAAD, and conducted upper tier debris mitigation exercises during the intercept engagement. US MDA: release | MDA photos and video | Raytheon.

June 30/10: R&D. Lockheed Martin Space Systems Co. in Sunnyvale, CA receives a $67 million “obsolescence mitigation” contract for THAAD system electronics. If a 6 year old computer is ancient, what kinds of performance and supplier issues would you expect for a program that began in the late 1990s? This sole-source, cost-plus-fixed-fee modification will cover obsolescence mitigation efforts for THAAD defense batteries 3 and 4, including completion of ongoing FY 2009 obsolescence efforts, and similar work required to support FY 2010 buys. Efforts will also include qualification of identified replacement components, required software updates to accommodate those new components, offering a test environment, and regression testing for the changes.

Work will be performed in Sunnyvale, CA from June 2010 through March 2011. FY 2010 procurement funds will be used to commit $27.8 million for this effort (HQ0147-07-C-0196).

June 29/10: Test. Endoatmospheric THAAD intercept test successful. A THAAD interceptor missile intercepts an incoming target missile at the lowest altitude to date, in a test off of Hawaii that was to simulate an endoatmospheric (inside the atmosphere), short range ballistic missile. This kind of scenario is more difficult than it appears; Lockheed Martin describes it as a “highly stressing angle,” due to the density and friction that a very high speed object encounters in the atmosphere.

Soldiers of the 6th Air Defense Artillery Brigade of Fort Bliss, Texas, conducted launcher, fire control and radar operations during this test, using tactics, techniques, and procedures developed by the U.S. Army Air Defense School. Test personnel also used the Simulation-Over-Live Driver (SOLD) software system to inject multiple simulated threat scenarios into the THAAD radar, in order to simulate performance against a mass salvo. Other participants included the Command and Control, Battle Management and Communications (C2BMC) system, and elements of the U.S. Army’s PATRIOT system. According to the US MDA, “Preliminary indications are that planned flight test objectives were achieved.” This makes the fully up to date, “operationally configured” THAAD system 7/7 in intercept tests so far (11 total tests so far since 2005). US MDA | Photos & Video | Lockheed Martin.

April 1/10: Support. Lockheed Martin Corporation of Sunnyvale, CA received a 5-year, sole-source, indefinite delivery/ indefinite quantity THAAD Field Support Contract, with a ceiling value of $434.7 million. Lockheed Martin will provide logistics, maintenance, software, training, and engineering services to fielded THAAD fire units through March 2015.

Work will be carried out in Sunnyvale, CA; Huntsville, AL; and Fort Bliss, TX. Fiscal year (FY) 2010 Research, Development, Test and Evaluation funds will be utilized for Task Orders issued in FY 2010 (HQ0147-10-D-0001). See also Lockheed Martin release.

March 30/10: GAO. The US GAO audit office delivers its 8th annual “Defense Acquisitions: Assessments of Selected Weapon Programs report. Its assessment of THAAD is mostly positive:

“The program’s critical technologies are mature and its design appears stable. However, it is still qualifying components and conducting flight tests, so additional design work may be necessary. Target issues continue to affect the program as it was unable to conduct two planned fiscal year 2009 flight tests or its first fiscal year 2010 flight test because of target issues. Although one successful intercept test during fiscal year 2009 could not demonstrate a major knowledge point because of target availability, as THAAD’s first developmental and operational test it demonstrated THAAD’s ability to launch two interceptors against a single target. The program is on schedule to deliver two THAAD batteries to the Army in 2010 and 2011.”

…[due to problems with the target missiles it intercepts] The program will not attempt a medium-range ballistic missile intercept until fiscal year 2011 – nearly 3 years later than planned. In its fiscal year 2010 budget, DOD requested procurement funding for THAAD for the first time. DOD requested $420 million in procurement funding to buy interceptors, launchers, and a fire control and communication system for a future THAAD battery, as well as to procure tooling and equipment to increase THAAD interceptor production capacity. Program officials told us that they plan to award a procurement contract for a future THAAD battery by the end of fiscal year 2010. These batteries will be fully funded using procurement funds [rather than] incrementally funded using research, development, test and evaluation funds as authorized by Congress.”

March 26/10: Walbridge in Detroit, MI won a $40.7 million firm-fixed-price contract to design & build 3 tactical equipment maintenance facilities (TEMFS) at 3 close but separate sites in Fort Bliss, TX. Supported projects will include a sustainment bridge, a Joint Land Attack Cruise Missile Defense Elevated Netted Sensor System (JLENS) aerostat battery, and a Terminal High-Altitude Area Defense (THAAD) missile battery.

Each TEMFS will provide a complex with repair and maintenance bays, equipment and parts storage, administrative offices, secure vaults, oil storage buildings, hazardous material storage, and other supporting facilities such as organizational storage buildings. Work is to be performed in Fort Bliss, TX, with an estimated completion date of Dec 30/11. Bids were solicited via World Wide Web, with 4 bids received.

March 16/10: TPY-2. Raytheon Integrated Defense Systems of Woburn, MA receives a $17.4 million sole-source contract modification that includes both fixed-price and cost-plus-award-fee line items. Under this contract modification, Raytheon will continue Phase II of concurrent test, training, and operations support unit integration for AN/TYP-2 X-Band radar.

Work will be performed in Woburn, MA through November 2010. Fiscal year 2010 research, development, test and evaluation funds will be used for this effort (HQ0006-03-C-0047).

Oct 16/09: The U.S. Army activates its 2nd THAAD battery during a ceremony at Fort Bliss, TX. It’s the 32nd Army Air and Missile Defense Command’s 11th Air Defense Artillery Brigade, A Battery of 2nd Air Defense Artillery Regiment. US MDA [PDF].

FY 2009

Tests. SM-3.

Sept 17/09: SM-3s for Europe. The Obama administration announces revised plans for its European missile defense architecture. Instead of positioning Boeing’s GMD and Ground-Based Interceptors at silos in Poland and/or the Czech Republic, which could intercept even the longest-range ballistic missiles, they choose an architecture based around Raytheon’s SM-3, at sea and on land.

Gen. Cartwright does say that the US military will deploy a THAAD battery to Europe in 2009, as part of operational testing, and will continue to roll out the system as the Army’s wide-area air defense system. Its AN/TPY-2 radar is certainly secure, as it appears to be set as the land-based radar for SM-3s as well. Whether THAAD would remain secure in a significant budget crunch, or be “rationalized” away in favor of planned SM-3 deployments that offer much less mobility but much longer range, remains to be seen. Read “Land-Based SM-3s for Israel – and Others” for more.

Aug 17/09: THAAD II? Aviation Week reports that the USA is examining a number of possible changes to THAAD. The most significant change would add a 21″ booster and turn THAAD into a 2-stage weapon that could offer 3-4 times the existing system coverage (i.e. about 1.75 – 2 times existing range). That size would match the Navy’s planned SM-3 Block II missiles, and would force a redesign of the THAAD launcher to handle 5 of the new 21″ missiles instead of 8 of the current 14.5″ missiles.

The report quotes the US MDA’s THAAD project manager, U.S. Army Col. William Lamb, who says they are reviewing a concept from Lockheed Martin for possible inclusion in the Fiscal 2011 budget. Lockheed Martin Vice President Tom McGrath is quoted as saying that THAAD rocket motor manufacturer Aerojet conducted static-fire trials of a 21″ prototype and a second “kick stage” in 2006, as part of a privately funded R&D effort.

The news comes just before Raytheon announces their intent to develop a land-based variant of their naval SM-3 missile that will work with their AN/TPY-2 radar, and Boeing proposed a mobile version of their even longer-range GMD interceptors for use in Europe.

July 9/09: TPY-2. Raytheon announces successful integration and acceptance testing the AN/TPY-2 X-band radar’s Prime Power Unit (PPU), a trailer-mounted 1.3 megawatt Generator Set. Following this success at White Sands Missile Range, NM, the PPU will undergo extensive user evaluations as the next stage in its fielding process.

June 29/09: Test. The US Missile Defense Agency uses a routine flight test of the USA’s nuclear ICBM rockets to save money, by conducting some tests on the other end. After the Glory Trip 199 missile was launched from Vandenberg AFB, CA to ensure that all Minuteman elements continue to work properly, the MDA used it to test the AN/TPY-2 in Forward Base Mode, the Upgraded BMEWS Early Warning Radar at Beale AFB, CA, and items from its External Sensors Laboratory. Data collected during the exercise will be used to improve sensor capabilities and as risk reduction for future BMDS tests. MDA release [PDF]

Apr 13/09: Rollout. Lockheed Martin officially rolls out the first THAAD ground segment vehicles to come off the production line in Camden, AR. The THAAD Weapon System launcher and the Fire Control and Communications unit will be delivered to Soldiers at Fort Bliss, TX, which is expected to have a fully operational THAAD battery of equipment and personnel by the end of 2009.

April 6/09: THAAD comes out a winner in Secretary of Defense Robert M. Gates’ proposed FY 2010 budget. While other missile defense programs are being cut, Gates proposes to spend $700 million to field naval SM-3 and land-based THAAD missiles. Presidential and Congressional approval are still required, before the final funding totals can become a reality.

March 18/09: Test. A THAAD missile completes a successful intercept of a ballistic missile target during a test at the Pacific Missile Range Facility off the Hawaiian island of Kauai. Soldiers of the US Army’s 6th Air Defense Artillery Brigade conducted launcher, fire control and radar operations, using tactics, techniques and procedures developed by the U.S. Army Air Defense School. MDA release [PDF]

FY 2008

1st battery. UAE request. A THAAD Engagement
(click to view full)

Sept 17/08: Test cancelled. The US Missile Defense Agency has to cancel a THAAD test when the target missile malfunctions, leaving the THAAD system nothing to intercept within the Pacific Missile Range Facility’s designated “safe area” off of Kauai.

Interception outside of that safe area would certainly be possible, but might not be appreciated by any ship, aircraft, or other traffic that found itself under the falling debris. MDA release [PDF].

Sept 9/08: UAE request. The US Defense Security Cooperation Agency announces [PDF] the United Arab Emirates’ request for 3 Terminal High Altitude Air Defense (THAAD) Fire Units with 147 THAAD anti-ballistic missiles, 4 THAAD Radar Sets (3 tactical and one maintenance float), 6 THAAD Fire and Control Communication stations, and 9 THAAD Launchers. This would represent the first foreign sale of the THAAD system.

The UAE is also requesting fire unit maintenance equipment, the heavy trucks that carry the THAAD components, generators, electrical power units, trailers, communications equipment, tools, test and maintenance equipment, repair and return, system integration and checkout, spare/repair parts, publications, documentation, personnel training, training equipment, contractor technical and logistics personnel services, and other related support elements. The estimated cost is $6.95 billion.

The principal contractor is Lockheed Martin Space Systems Corporation in Sunnyvale, CA (THAAD), and the sub-contractor is Raytheon Corporation in Andover, MA (radar).

The UAE will be requesting industrial offsets, which will be negotiated with these contractors. On the other hand, the UAE “does not desire a government support presence in its country on an extended basis.” A total of 66 contractor logistic support personnel could be stationed in United Arab Emirates for extended periods, and additional training and major defense equipment personnel may be in the United Arab Emirates for short periods of time, not to exceed 24 months.

UAE request

June 25/08: Test. A successful THAAD test involving a separating target (mock warhead separated from the booster rockets) inside the earth’s atmosphere. The target was launched from a U.S. Air Force C-17 aircraft flying over the Pacific Ocean, and about 6 minutes later the interceptor missile was launched from a mobile THAAD launcher on the range facility. This was the 29th of 30 successful tests conducted since September 2005, of which 6 have been intercept tests.

The primary objective of this intercept test was to demonstrate target acquisition, tracking and aimpoint selection by the avionics software contained in the THAAD interceptor, and to intercept a separating target. Secondary objectives included observing launch effects on the THAAD vehicle, and verifying soldier performance in the system’s semiautomatic mode using current tactics, techniques and procedures developed by the US Army Air Defense School.

The U.S. Navy cruiser USS Lake Erie [CG-70] also received a tracking cue from THAAD, and used its SPY-1 radar to successfully track the target and conduct a simulated SM-3 missile launch to engage the target. MDA release [PDF] | Video [Windows Media].

June 13/08: Test. A non-firing test involves THAAD TPY-2 X-band radars in conjunction with the SPY-1 Aegis Ballistic Missile Defense (BMD) system aboard the USS Lake Erie [CG 70], as 2 medium-range target missiles are launched near-simultaneously from the Pacific Missile Range Facility (PMRF) at Barking Sands, Hawaii. Lake Erie’s crew used their own radars, and also received data from 2 THAAD radars at PMRF via secure links. All equipment performed as designed, and the cruiser was able to get launch solutions on both targets. MDA release [PDF].

May 28/08: Battery 1. The U.S. Army activates Alpha Battery/4th Air Defense Artillery Regiment, 11th Air Defense Artillery Brigade, 32nd Army Air & Missile Defense Command as the first THAAD battery, in a ceremony at Fort Bliss, TX.

The battery will receive 24 THAAD interceptors, 3 THAAD launchers, a THAAD Fire Control and a THAAD radar as part of the initial fielding. That will be backed by support from the Battery Support Center and Integrated Contractor Support System, as well as the necessary spares for a fielded unit. Unit training began in April 2008, in preparation for full-system fielding beginning in 2009.

Dec 17/07: Test. A THAAD test battery is a participant in the first shoot-down of a ballistic missile by a ship of the Japanese Navy, receiving data from the USS Lake Erie [CG 70] and participating in tracking. Read “Japanese Destroyer JS Kongo Intercepts Ballistic Missile” for full details.

Nov 15/07: Award. Lockheed announces that the THAAD program received Aviation Week’s 2007 Program Excellence Award for Research and Systems Design and Development. The program was praised for best practices including systems engineering, a process of “test as you fly, fly as you test”; and the application of pit-stop technology used in car racing to reduce maintenance, diagnostic, and repair times to seconds.

Oct 27/07: Test. At 3:15 a.m. Eastern Daylight Time, a THAAD missile succeeded in the exo-atmospheric destruction of a non-separating target representing a SCUD-type ballistic missile, which was launched from a mobile platform positioned off Kauai in the Pacific Ocean. The interceptor was launched from the THAAD launch complex at the Pacific Missile Range Facility. This was the 4th successful intercept for the current THAAD program over the last 4 tests, and the 3rd test of the THAAD system at Pacific Missile Range Facility.

The primary objective of this test was to demonstrate integrated operations of the system, including radar, launcher, fire control equipment and procedures, and the interceptor’s ability to detect, track and destroy the target missile using only the force of a direct collision. Other objectives included demonstrating performance of an interceptor that had been “hot conditioned,” or heated to a certain temperature before launching; and demonstrating the ability of the interceptor to perform correctly in the final seconds before target intercept. Soldiers of the 6th Air Defense Artillery Brigade stationed at Fort Bliss, Texas operated all THAAD equipment during all tests, conducting operations of the launcher, fire control and communications and radar. MDA release [PDF] | Lockheed Martin release | Raytheon release re: radar | BAE release re: IR tracking.

FY 2007

Tests. Orders begin.

Aug 22/07: Lockheed announces that it has selected its manufacturing facility in Camden, AR, to build the THAAD launcher and Fire Control and Communications (TFCC) unit. The Camden plant already produces MLRS/HIMARS 227mm battlefield artillery rockets, and the Patriot PAC-3 missile.

Initially, 35 new jobs will be created to support the program with production taking place in the 200,000 square-foot Launcher Integration Complex. Camden Operations currently has an employment population of 450. Employment at the facility could grow to more than 500 by 2010. Lockheed Martin release.

Aug 6/07: Israel. Jane’s Defence Weekly:

“Israel is leaning towards upgrading its own anti-ballistic missile Arrow Weapon System (AWS) rather than acquiring the US Theatre High Altitude Area Defence (THAAD) system. While no formal decision has yet been taken, Jane’s has learned that officials from the Israel Ballistic Missile Defence Organisation (BMDO) have informed the US Missile Defense Agency (MDA) about potential complications with integrating THAAD into the country’s missile-defence alignment.”

Israel does end up opting for its Arrow-3 co-development with Boeing.

July 11/07: TPY-2. Raytheon announces a $304 million contract from the US Missile Defense Agency to develop advanced tracking and discrimination capabilities for the Ballistic Missile Defense System (BMDS) forward based AN/TPY-2 radar. As noted above, the TPY-2 is also the THAAD system’s component radar.

Under the contract, Raytheon is responsible for the development and test of radar software, various engineering tasks, maintenance and support, infrastructure upgrades, and deployment mission planning. Work will be performed at the company’s Missile Defense Center in Woburn, MA and the Warfighter Protection Center in Huntsville, AL.

The first forward-based capability spiral was released on schedule in October 2006 and is operational. Raytheon IDS is developing the second forward-based capability spiral, with release planned in early 2008. As the prime contractor for this program, Raytheon IDS has delivered the first 2 of 5 planned AN/TPY-2 radars to the Missile Defense Agency. The first radar, delivered in November 2004, is currently deployed in Japan. The second AN/TPY-2 radar recently completed acceptance testing at Vandenberg Air Force Base, CA. Raytheon is also responsible for whole-life engineering support for AN/TPY-2 radars under a contract awarded in June 2005. Raytheon release.

July 11/07: BAE Systems announces a $62.3 million contract from Lockheed Martin to begin production of the THAAD Interceptor’s infrared seeker. Assembly, integration, and testing of production equipment will take place at BAE Systems facilities in Nashua, NH; Lexington, MA; and Johnson City, NY.

BAE Systems began work on seekers for missile defense in the late 1970s and achieved the first hit-to-kill intercept of a ballistic missile target in 1984. The company started work on the THAAD seeker demonstration and validation contract in 1991 and achieved two hit-to-kill intercepts in 1999. The seeker development program was begun in 2000, and is scheduled to conclude in 2007.

June 26/07: Test. The US Missile Defense Agency announces a successful THAAD test flight entirely inside the low atmosphere, which features higher pressures and friction heating. This was the lowest altitude fly-out of a THAAD interceptor to date, and was strictly an aerodynamics & durability test. All test objectives were met, including interceptor launch, booster and kill vehicle separation, shroud separation in a low endo-flight environment, kill vehicle control, and evaluation of the heating effects on the interceptor mid-body.

When used in “low endo-atmospheric” mode like this, THAAD can serve as a 3rd layer between the mobile ground-based Patriot PAC-3 or MEADS system, and the longer range AEGIS BMD/Standard Missile-3 sea-based missile defense. This was the last planned missile test at the White Sands Missile Range in New Mexico; all future tests will take place at the Pacific Missile Range Facility near Kauai, Hawaii. MDA release [PDF format] | Lockheed release.

June 26/07: TPY-2. Raytheon announces completion of all factory acceptance testing on its 2nd THAAD radar, which was shipped ahead of schedule and under budget to the Missile Defense Agency at White Sands Missile Range, NM, for final testing and acceptance. Raytheon release.

June 22/07: Test. Missile defense Flight Test Maritime-12 took place, launching an SM-3 Block 1A missile from the destroyer USS Decatur [DDG 73]. The Spanish Navy’s Alvaro de Bazan Class AEGIS frigate Mendez Nunez [F-104] also participated in the test “as a training event to assess the future capabilities of the F-100 Class.” So, too, did the US Navy’s Ticonderoga Class AEGIS cruiser USS Port Royal [CG 73], which successfully used its SPY-1B radar augmented by a prototype AEGIS BMD Signal Processor (BSP) to detect and track the separating warhead in real time, and to tell the difference between the simulated warhead and the rest of the missile. The final variant of that processor is expected to be deployed in 2010.

USS Port Royal also exchanged tracking data with a ground-based Terminal High Altitude Air Defense (THAAD) system ashore, in order to verify compatibility. Video from the test | US MDA release [PDF] | Raytheon release | Boeing release | Lockheed Martin release.

April 5/07: Test. THAAD was successful in the second integrated flight test conducted by the US Missile Defense Agency (MDA) at the Pacific Missile Range Facility in Hawaii. The test resulted in the successful intercept of a “mid-endoatmospheric” (inside Earth’s atmosphere) unitary (non-separating) target over the Pacific Ocean and demonstrated fully integrated radar, launcher, fire control, missile and engagement functions of the THAAD weapon system.

This was the first THAAD interceptor mission that was considered a Ballistic Missile Defense System (BMDS) test, meaning that more than one element of the defensive system participated. Successful beyond-line-of-sight communications with a U.S. Navy AEGIS sensor, as well as communications links with the Command, Control, Battle Management and Communications (C2BMC) system and the U.S. Air Force Space-Based Infrared Sensors (SBIRS) system, were both part of the test. In addition, soldiers of the U.S. Army’s 6th Air Defense Artillery Brigade stationed at Fort Bliss, TX operated all THAAD equipment including the launcher, fire control, communications, and radar.

Other flight test objectives included demonstrating successful missile launch from the PMRF launch site; interceptor “kill vehicle” target identification, object discrimination and intercept; collection of data and hit assessment algorithms; and evaluation of the missile launching procedures and equipment. While post-test analysis will take place over several weeks, MDA reports that initial indications are that the test objectives were achieved. This was the 26th successful “hit to kill” intercept for elements of the Ballistic Missile Defense System since 2001, and the 3rd successful THAAD intercept in the current program phase. MDA release [PDF format]. BAE release | Raytheon release.

March 5/07: Test. March 5/07: A THAAD radar test involves the launch of a short-range target missile from a C-17A aircraft over the Pacific Ocean, which deploys by parachute before its rocket motor ignites. The missile was launched at approximately 2:30 p.m. Hawaii Time (7:30 p.m. EST) approximately 400 miles west of the Pacific Missile Range Facility on Kauai, Hawaii, and its flight was successfully tracked by the ground based X-band radar, now known as the AN/TPY-2 (Army Navy/Transportable Radar Surveillance). Preliminary indications are that all radar data collection objectives were met.

The MDA release [PDF] says that “air-launched targets provide the capability to structure target missile trajectories during flight tests so that they are able to better replicate potential trajectories hostile ballistic missiles could use during an attack of our homeland, our deployed forces and our allies and friends.” A C-17 gives off a large radar profile, however, and at 400 miles it would have been well within the TPY-2’s surveillance range before the missile was dropped.

Feb 9/07: TPY-2. Raytheon Company in Woburn, MA received a $20 million cost-plus-fixed-fee modification contract that could soar to $212.2 million to manufacture, deliver, and integrate the AN/TPY-2 radar component of the THAAD ABM system. Fiscal Year 2007 R&D funds worth $20 million will be used. Work will be performed at Woburn, MA and is expected to be complete by May 2010. The Missile Defense Agency in Washington, DC issued the contract (HQ0006-03-C-0047). See also Raytheon release.

Jan 26/07: Test. Test #15. An intercept test is successfully conducted at 7:20 p.m. Hawaii Time) at the Pacific Missile Range Facility off the island of Kauai in Hawaii, with the MDA and Lockheed Martin both claiming success. This test involved a single-warhead target representing a SCUD-type ballistic missile, traveling just inside earth’s atmosphere following launch from a mobile platform positioned off Kauai in the Pacific Ocean. Primary flight test objectives included demonstrating the integration of the radar, launcher, fire control and communications and interceptor operations; demonstrating radar and interceptor discrimination; and target acquisition and tracking by the interceptor’s seeker. See MDA release [PDF] | Raytheon release.

Jan 2/07: Israel. Israel to choose THAAD over Arrow? SpaceWar relays a report from the left-leaning Ha’aretz newspaper that Israel is considering halting the development of a new generation of its Boeing/IAI Arrow theater defense system due to the high costs involved, in favor of THAAD. Negotiations have reportedly been ongoing in recent months, and it is said that Israeli leaders will make a final decision on whether to phase out the Arrow some time in 2007.

While the USA has paid half of the Arrow system’s development costs since 1991 (and derived all technology access and lessons), it’s worth noting that THAAD could be paid for via 100% commitment of “soft” US aid budget dollars rather than requiring 50% hard currency outlays. On the other hand, the Arrow’s tests have been generally successful, and THAAD is not yet seen as reliable.

UPDATE: The Israeli Ministry of Defence has strongly denied these reports.

Dec 22/06: US order. Lockheed Martin Space Systems Company of Sunnyvale, CA received a $619.2 million cost-plus-incentive-fee/ cost-plus-award-fee contract for Terminal High Altitude Area Defense (THAAD) fire unit fielding, support equipment and initial spares. A January 3, 2007 Lockheed release adds that the contract is for the first 2 THAAD fire units, which includes 48 interceptors (missiles), 6 launchers, and 2 fire control and communications units. The system is scheduled for fielding in FY 2009.

Work will be performed at Sunnyvale, CA, though final assembly, integration and testing of production equipment will take place at Lockheed Martin’s award-winning manufacturing facilities in Troy, AL, and Camden, AR. The contract is expected to be completed in February 2011. This is a sole source contract award from the Missile Defense Agency, Terminal High Altitude Area Defense Project Office in Huntsville, AL (HQ0147-07-C-0196).

“This is a major milestone for the THAAD program,” said Tom McGrath, Lockheed Martin vice president and THAAD program manager. Which it is, following a number of tests in which THAAD has performed reasonably well.

Orders begin

FY 2006 and Earlier

EMD. Manufacturing begins. Launcher on HEMTT truck
(click to view full)

July 12/06: Test. Successful test launch of a THAAD interceptor missile. The primary test objective was to demonstrate the interceptor seeker’s ability to accurately identify a ballistic missile target in the high-endoatmosphere, i.e. just inside the earth’s atmosphere. A non-separating Hera target missile was launched for the test, and (although it was not a primary objective) a successful THAAD intercept of the target occurred. See also Lockheed Martin MFC release.

May 11/06: Test. Successful launch was achieved of a THAAD interceptor missile. This was intended as a fully integrated flight test (not intercept test) of all THAAD components, including the mobile launcher, radar, fire control and communications element, and the interceptor missile.

A Raytheon release touts the performance of its THAAD Ground-Based Radar in the test. The THAAD radar, developed by Raytheon Integrated Defense Systems (IDS), accomplished all test objectives, including communicating with the in-flight THAAD missile. Track and discrimination reports were successfully transmitted between the THAAD radar and fire control. Performance of the fire control software, jointly developed by Raytheon and Lockheed Martin, was also successful. See also Lockheed Martin MFC release.

Nov 22/05: Test. New round of testing begins for THAAD with a non-intercept launch. All components work. See Lockheed Martin MFC release.

May 26/04: Lockheed Martin begins manufacturing the Terminal High Altitude Area Defense (THAAD) missile at its Pike County Operations facility in Troy, AL. One “pathfinder” missile and 16 developmental test missiles will be manufactured. See Lockheed Martin MFC release.

Manufacturing begins

May 29/02: Infrastructure. Lockheed Martin breaks ground in Troy, AL on a new production facility for the Theater High Altitude Area Defense (THAAD) Weapon System. The investment was reportedly about $13 million, and part of that will be used to optimize the THAAD facility for lean production and Six-Sigma programs. The Pike County site has won several independent awards for its quality and performance, and is considered a Lockheed Martin Center of Excellence for strike weapons. It already performs final assembly, test and storage of the Hellfire II and Longbow Hellfire anti-armor missiles; the Javelin man-portable anti-armor missile; the Israeli-designed AGM-142 ‘Popeye’ air-to-surface missile, and (in future) the JASSM air-surface missile. The plant currently employs about 230 employees, and will assemble and test the THAAD missile in a field-deployable canister. See Lockheed Martin MFC release.

Jan 24/01: Infrastructure. Lockheed Martin Missiles and Fire Control selects its production facility in Pike County (Troy), AL as the missile final assembly and test site for the THAAD weapon system. Work will happen in two phases, starting with the Engineering and Manufacturing Development (EMD) phase beginning in 2003, and the construction of a 39,000-square-foot, $8.6 million state-of-the-art facility dedicated to the THAAD program. Personnel staffing and training will ramp up at the Pike County facility beginning in calendar year 2004, with the first early development unit work beginning in 2004. An additional 15,500 square feet of administration and storage space will be added in 2004.

The second phase, Full Rate Production, will begin in 2007, with the construction of a 20,600-square-foot, $5 million addition to the Assembly and Test building, and 18,500 additional square feet for administration and storage. See Lockheed Martin MFC release.

June 28/2000: EMD contract. Lockheed Martin Space Systems Missiles & Space Operations in Sunnyvale, CA received a $77.5 million increment as part of a $3.97 billion (cumulative total includes options) cost-plus-award-fee contract for the Engineering and Manufacturing Development (EMD) of the initial Theater High Altitude Area Defense (THAAD) tactical ballistic missile defense system. “During the EMD program, the system design will evolve to satisfy the Army’s key operational requirements while developing weapon system components that are not only effective but are affordable, ready for production, and available to the U.S. Army soldiers for a first unit equipped in FY 2007.”

Work will be performed in Sunnyvale, CA (68%); Huntsville, AL (30%), and Courtland, AL (2%), and is expected to be complete by May 3, 2008. This is a sole source contract initiated on Oct. 29, 1999 by the U.S. Army Space and Strategic Defense Command in Huntsville, AL (DASG60-00-C-0072).

EMD contract

Jan 30/98: Small business qualifier Tec-Masters Inc. in Huntsville, AL received a $2.2 million increment as part of a $27.8 million cost-plus-award-fee/ level-of-effort contract for Theater High Altitude Area Defense (THAAD) Simulation and Hardware-in-the-Loop development. The estimated cumulative total value of this contract will be $43 million if all options are exercised. Work will be performed in Huntsville, AL and is expected to be complete by Sept. 30, 2002. This is a sole source contract initiated on Aug. 22, 1997 by the U.S. Army Space and Missile Defense Command in Huntsville, AL (DASG60-98-C-0044).

Nov 21/96: Silverton Construction in El Paso, TX received a $10.4 million firm-fixed-price contract for construction of 2 standard design tactical equipment shops, an organizational maintenance shop and direct support maintenance shop, a fuel dispensing facility, oil storage building, sentry station, pavement, site improvements, utilities, physical security, and information systems for the Theater High Altitude Area Defense (THAAD) system.

Work will be performed at Fort Bliss, TX and is expected to be complete by Jan. 20, 1998. There were 31 bids solicited on Sep. 22, 1996, and 7 bids received by the U.S. Army Corps of Engineers in Fort Worth, TX (DACA63-96-C-0004).

Sept 24/96: Small business qualifier Dynetics, Incorporated in Huntsville, AL received a $3.4 million increment as part of a $35 million cost-plus-award-fee/ level-of-effort contract for systems engineering and technical assistance (SETA) for the Theater High Altitude Area Defense (THAAD). Work will be performed in Huntsville, AL and is expected to be complete by September 23, 2001. There were 39 bids solicited on March 29, 1996, and 3 bids were received by the U.S. Army Strategic Defense Command in Huntsville, AL (DASG60-96-C-0193).

Additional Readings & Sources Background: THAAD System

• US Missile Defense Agency – Terminal High Altitude Area Defense Fact Sheet [PDF]

• Pentagon DefenseLINK, Missile Defense – Theater High Altitude Area Defense (THAAD) System

• Army Technology – THAAD Theatre High Altitude Area Defense Missile System, USA

• Designation Systems – Lockheed Martin THAAD

• GlobalSecurity.org – THAAD TMD

• Lockheed Martin – THAAD

• Gencorp’s Aerojet Rocketdyne – THAAD – 100% Mission Success

• DID Spotlight – AN/TPY-2: America’s Portable Missile Defense Radar

• Raytheon – Terminal High-Altitude Area Defense (THAAD) Radar System

• Center for Defense Information, via WayBack – Missile Defense Tests: Theater High Altitude Area Defense (THAAD) Flight Test History. The left-wing CDI think-tank has a complete table of the first 12 tests to August 1999. See “Contracts and Key Events” section above for subsequent tests.

Official Reports

• US GAO (April 11/14, #GAO-14-314) Ballistic Missile Defense: Actions Needed to Address Implementation Issues and Estimate Long-Term Costs for European Capabilities.

• US GAO (April 26/13, #GAO-13-432) – Missile Defense: Opportunity To Refocus On Strengthening Acquisition Management.

• US GAO (April 20/12, #GAO-12-486) – Opportunity Exists to Strengthen Acquisitions by Reducing Concurrency.

• US GAO (March 24/11, #GAO-11-372) – Missile Defense: Actions Needed to Improve Transparency and Accountability.

Background: Other National/ Regional Systems

• DID – SM-3 BMD, in from the Sea: EPAA & Aegis Ashore. The SM-3 has longer reach than THAAD, but its chosen deployment configuration in Europe isn’t mobile.

• DID – Gulf States Requesting ABM-Capable Systems. Covers a fuller panoply of BMD-related buys within that region.

• DID – Pining for Control: South Korea’s KAMD National Ballistic Missile Defense System. Which could complicate THAAD deployments there.

Competitive Technologies

• DID – Israel’s Arrow Theater Missile Defense. Coverage from 2000 – 2011. IAI and Boeing are currently working on the Arrow 3, which is competitive with THAAD.

• IMINT & Analysis – S-300P tag items. Articles give a very detailed overview of S-300/S-400 versions and deployment, backed by imagery intelligence of Russian sites. Also adds some S-500 related information. These Russian missiles also have BMD capabilities, but unlike THAAD, they’re also meant for long-range air defense within the atmosphere.

• DID FOCUS Article – Raytheon’s Standard Missile Naval Defense Family. Includes information and links related to the SM-3.

Testing, Testing…

• Designation Systems – Coleman Hera. Frequent target missile.

• DID (Dec 18/07) – US Missile Defense Shifting Toward More Realistic Testing?

Although the EU has become a leading multilateral actor in the field of security sector reform (SSR), it continues to face significant challenges that hinder its potential for delivery. In the run-up to the prospective adoption of an EU-wide strategic framework for supporting SSR, this study aims to shed light on the realities faced by SSR policy makers and practitioners. By looking at the EU’s SSR track record, as well its involvement in the complementary process of disarmament, demobilisation and reintegration (DDR), this study provides an assessment of the lessons learnt and highlights the ways forward for the EU as a security provider, particularly ahead of the launch of its maiden Global Strategy on Foreign and Security Policy (EUGS).
Source : © European Union, 2016 - EP

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Disclaimer : The interpretation of debates serves to facilitate communication and does not constitute an authentic record of proceedings. Only the original speech or the revised written translation is authentic.
Source : © European Union, 2016 - EP

Length of video : 203'
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Disclaimer : The interpretation of debates serves to facilitate communication and does not constitute an authentic record of proceedings. Only the original speech or the revised written translation is authentic.
Source : © European Union, 2016 - EP