American troops offload a Terminal High Altitude Area Defense (THAAD) launcher from a C-17 Globemaster III at Mihail Kogalniceanu (MK) Air Base, Romania, May 3, 2019.
The THAAD deployed to Romania from 69th Air Defense Artillery Brigade, 32nd Army Air and Missile Defense Command out of Fort Hood, Texas.
The deployment of the THAAD is in support of the NATO Ballistic Missile Defense mission and reinforces the strong and unremitting U.S. commitment to the defense of our NATO allies.
The unit arrived in Romania in April to emplace a Terminal High Altitude Area Defense (THAAD) system while NATO’s Aegis Ashore Ballistic Missile Defense site undergoes a long-planned update in the upcoming months.
The successful LRASM sensor program demonstrates BAE Systems’ ability to quickly deliver advanced EW technology to warfighters.
BAE Systems worked closely with Lockheed Martin to deliver Long-Range Anti-Ship Missiles (LRASM) to the U.S. Air Force, achieving Early Operational Capability (EOC) for the B-1 B Lancer bomber ahead of schedule. The Air Force accepted delivery of production LRASM units following successful simulation, integration, and flight tests that demonstrated the missile’s mission readiness.
«We’re quickly delivering critical capabilities to warfighters to meet their urgent operational needs», said Bruce Konigsberg, Radio Frequency (RF) Sensors product area director at BAE Systems. «Our sensor systems provide U.S. warfighters with a strike capability that lets them engage protected, high-value maritime targets from safe distances. The missile provides a critical advantage to U.S. warfighters».
BAE Systems’ long-range sensor and targeting technology enables LRASM to detect and engage protected ships in all weather conditions, day or night, without relying on external intelligence and navigation data.
BAE Systems and Lockheed Martin are working closely together to further mature the LRASM technology. The companies recently signed a contract for the production of more than 50 additional sensors and are working to achieve EOC on the U.S. Navy’s F/A-18E/F Super Hornet in 2019.
The advanced LRASM sensor technology builds on BAE Systems’ expertise in Electronic Warfare (EW), signal processing, and targeting technologies, and demonstrates the company’s ability to apply its world-class EW technology to small platforms. The successful LRASM sensor program demonstrates the company’s ability to quickly deliver advanced EW technology to warfighters.
As part of the company’s electronic warfare capacity expansion initiatives, it locates key programs where they will be optimally staffed to quickly transition from design to production, accelerate deliveries, and improve product affordability. The company’s work on the LRASM program is conducted at state-of-the-art facilities in Wayne, New Jersey and Nashua, New Hampshire, where it benefits from highly skilled EW engineering and manufacturing workforces.
Northrop Grumman Corporation has delivered to the U.S. Army the first production-representative Engagement Operations Center (EOC) for the Integrated Air and Missile Defense (IAMD) Battle Command System (IBCS).
«This milestone is testament of the significant progress toward operational capability that will make pivotal differences to warfighters, commanders and acquisition officials», said Dan Verwiel, vice president and general manager, missile defense and protective systems, Northrop Grumman. «We will be delivering more EOCs as well as IBCS Integrated Fire Control Network (IFCN) relays in the near future. These articles will be used for Initial Operational Test and Evaluation (IOT&E), which informs future production decisions».
The delivered IBCS EOC has completed all functional configuration audits for major configuration items and system verification review, and is representative of the production configuration for hardware and software that will undergo qualification testing before IOT&E. Northrop Grumman is on pace to deliver 11 EOCs and 18 IFCN relays for the IBCS program by the end of the year.
«Northrop Grumman will continue to closely collaborate with our customer and user communities to realize the groundbreaking vision of IBCS and its transformative impact on the air and missile defense mission», said Verwiel.
IBCS is a paradigm shift for IAMD by replacing legacy stove-piped systems with a next-generation, net-centric approach to better address an evolving array of threats. The system integrates disparate radars and weapons to construct a far more effective IAMD enterprise. IBCS delivers a single integrated air picture with unprecedented accuracy as well as broader surveillance and protection areas. With its truly open systems architecture, IBCS allows incorporation of current and future sensors and effectors and enables interoperability with joint C2 and the ballistic missile defense system.
IBCS is managed by the U.S. Army Program Executive Office for Missiles and Space, Redstone Arsenal, Alabama.
Raytheon Company successfully tested a hot fire rocket motor for DARPA’s Multi-Azimuth Defense Fast Intercept Round Engagement System, or MAD-FIRES.
The MAD-FIRES interceptor is designed to provide a robust and affordable self-defense capability that defeats multiple waves of anti-ship missiles, unmanned aerial vehicles, as well as other threats.
«The Navy is asking for leading-edge capabilities that can take out rapidly approaching targets, and Raytheon’s interceptor for the MAD-FIRES program will deliver», said Doctor Thomas Bussing, Raytheon Advanced Missile Systems vice president. «This test shows Raytheon is right on track to provide an affordable, advanced technology to the fleet».
If fielded, this capability will combine the speed, rapid fire and depth of a gun weapon system with the precision and accuracy of guided missiles.
On March 15, 2019, Raytheon Australia and Kongsberg Defence & Aerospace (KONGSBERG) joined Defence Minister, the Hon. Christopher Pyne and South Australian Premier, the Hon. Steven Marshall, to announce that the National Advanced Surface to Air Missile System, NASAMS, was selected for the Australian Government’s Short Range Ground Based Air Defence program known as LAND19 Phase 7B. KONGSBERG is a subcontractor to Raytheon Australia.
NASAMS was in 2017 chosen for a Single Supplier Limited Tender process and has gone through a Risk Mitigation Activity, and subsequently passed Government approval marked at today’s event in Adelaide. NASAMS is a fully networked and distributed system allowing the Australian Army to counter complex air threats beyond visual range and, considerably increase protection of Australian soldiers.
«This announcement lays the foundation for further expansion in Australia and the region. KONGSBERG sees more significant opportunities in Australia and have been a partner to the Australian Defence Force for 30 years starting with the Penguin anti-ship missile program. We opened an office in Canberra last year and is increasing our staff in the country», says Eirik Lie, President Kongsberg Defence & Aerospace AS.
«NASAMS is the most sold air defence system in its class in the last 10 years. Its continuous evolution enables new capabilities to be implemented in the system», says Kjetil Reiten Myhra, Executive Vice President Kongsberg Defence & Aerospace AS.
The Brimstone 3 ultra-high precision missile system has successfully achieved a major milestone by completing its first firing trial at the Vidsel Trials range in Sweden.
Whilst enduring extreme weather conditions with temperatures below -30°C, the missile was surface launched against a pick-up truck target.
All trials objectives were fully achieved with the missile proving, through a telemetry unit, full closed loop guidance with the seeker progressing into target acquisition and track.
Russell Jamieson, Chief Engineer, said: «The trial further proves Brimstone’s fully flexible platform approach, providing a «one missile, multiple platform» capability, for surface launch, fast jet, Remotely Piloted Air Systems (RPAS), attack helicopter, land and maritime platforms, all utilising the same missile. The result really was a tremendous success, and thanks to the hard work and determination of the whole team».
The demonstrated surface to surface capability builds on the advanced guidance and targeting abilities developed during the Brimstone programme and from hundreds of successful operational firings against targets in structures, main battle tanks/armoured vehicles, maritime vessels, trucks, fast moving and manoeuvring cars/motorbikes and individual targets in the open.
Brimstone 3 is the product of the Brimstone Capability Sustainment Programme (CSP), announced in March 2018, that will provide new Brimstone missiles for the UK Armed Forces in order to replenish the country’s inventory and to maintain the UK’s battlefield edge into the future. It will also provide the ability to fully meet current and future export supply needs.
The new-build Brimstone missiles will incorporate all of the improved functionalities offered by the spiral upgrades of Brimstone that have taken place over recent years which include the highly capable Dual Mode Semi-Active Laser (SAL)/millimetric Wave (mmW) seeker, enhanced autopilot, and the new insensitive munition compliant rocket motor and warhead, all combining to provide unique performance capabilities of Brimstone against the most challenging of targets. The new hardware standard will also enable the addition of further capability upgrades in the future.
The Israel Missile Defense Organization (IMDO) of the Directorate of Defense Research and Development (DDR&D) and the U.S. Missile Defense Agency (MDA) successfully completed a test series of the David’s Sling Weapon System, a missile defense system that is a central part of lsrael’s multilayer antimissile array.
This test series, designated David’s Sling Test-6 (DST-6) was the sixth series of tests of the David’s Sling Weapon System.
The test series examined capabilities and performance of the entire David’s Sling Weapon System. These successful tests are an important milestone in operational capability of Israel to defend itself against existing and future threats in the region.
The information collected during the test is being analyzed by program engineers and will be used for ongoing development and fielding of the David’s Sling Weapon System. This test series provides confidence in future Israeli capabilities to defend against large-caliber rockets and other developing threats.
The David’s Sling Weapon System project is a cooperative effort between the United States and Israel to develop a defense against large caliber rockets and short-range ballistic missiles.
The Israel Missile Defense Organization of the Israel Ministry of Defense and the US Missile Defense Agency, Successfully Completed a Series of Interception Tests of the David’s Sling Aerial Defense System pic.twitter.com/L2snuM0hnn
The U.S. Army has awarded Northrop Grumman Corporation a $713 million contract for the production of Integrated Air and Missile Defense (IAMD) Battle Command System (IBCS) for the first phase of Poland’s WISŁA air and missile defense program.
«Poland is taking a leadership role in today’s complex threat environment by selecting IBCS over legacy stove-piped systems that were designed decades ago for a much different threat profile. IBCS is the future of multidomain operations and with it, Poland will have a state-of-the-art system to modernize its integrated air and missile defense capabilities», said Dan Verwiel, vice president and general manager, missile defense and protective systems, Northrop Grumman. «Through the acquisition of IBCS, Poland will be in line with the U.S. Army’s future direction. Poland will have the flexibility to consider any radar and any interceptor, optimize sensor and effector integration and keep pace with an evolving threat».
Under this foreign military sales contract for WISŁA, Northrop Grumman will manufacture IBCS engagement operations centers and integrated fire control network relays and deliver IBCS net-enabled command and control for four firing units. The IBCS engagement operations centers will be integrated with IBCS battle management software that maximizes the combat potential of sensors and weapon systems. IBCS engagement operations centers and network relays will be transported by Polish Jelcz vehicles.
«Northrop Grumman continues to work closely with the Polish Ministry of National Defense and Polish industry toward a comprehensive offset program that meets the program goals and requirements. We look forward to continued collaboration and partnership with PGZ and its consortium of companies on this and future phases of the WISŁA program», said Tarik Reyes, vice president, business development, missile defense and protective systems, Northrop Grumman. «We are pleased with the opportunity to deliver cutting-edge, net-centric IBCS technology to Poland and support the Ministry of National Defense’s modernization priorities».
IBCS is the air and missile defense command-and-control solution of choice for Poland. In March 2018, Poland signed a Letter of Offer and Acceptance with the U.S. government to purchase IBCS and became the first international partner country to acquire this advanced capability. By implementing IBCS, Poland will transform its IAMD capabilities in a manner consistent with the U.S. Army.
IBCS creates a paradigm shift for IAMD by replacing legacy stove-piped systems with a next-generation, net-centric approach to better address the evolving complex threat. The system integrates disparate radars and weapons to construct a far more effective IAMD enterprise. IBCS delivers a single integrated air picture with unprecedented accuracy and broadens surveillance and protection areas. With its truly open systems architecture, IBCS allows incorporation of current and future sensors and weapon systems and interoperability with joint C2 and the ballistic missile defense system.
IBCS is managed by the U.S. Army Program Executive Office for Missiles and Space, Redstone Arsenal, Alabama.
Kongsberg Defence & Aerospace AS (KONGSBERG) has entered into contract with Japan to supply the initial deliveries of JSM (Joint Strike Missile) for their fleet of F-35 Lightning II fighter aircrafts.
The JSM development started in 2008 and was completed in mid-2018 after a series of successful validation test firings.
«This is an important international breakthrough which demonstrates the importance of cooperation between Norwegian authorities, Norwegian Defence Research Establishment and Norwegian industry», says CEO of KONGSBERG Geir Håøy.
The JSM is the only long-range sea- and land-target missile that can be carried internally in the F-35 Lightning II and thus ensuring the aircraft’s low-signature (stealth) capabilities. JSM is a new missile that will expand the overall capabilities of the F-35 Lightning II. No other weapon on the market today, can perform the same types of missions.
«The international F-35 Lightning II user consortium is showing great interest in the JSM and KONGSBERG is very proud to have been selected by Japan to provide the JSM for their F-35 Lightning II fleet. This is a major milestone for the JSM program, entering into the production phase», says Eirik Lie, President, Kongsberg Defence & Aerospace AS.
Northrop Grumman Corporation has received a $322.5 million contract from the U.S. Navy for the Advanced Anti-Radiation Guided Missile-Extended Range (AARGM-ER) Engineering and Manufacturing Development (EMD) program.
The AARGM-ER program is leveraging the AARGM that is currently in production. The AARGM-ER will be integrated on the F/A-18E/F Super Hornet and EA-18G Growler aircraft and configured for internal carriage on the F-35 Lightning II.
«AARGM-ER extended range coupled with AARGM lethality will meet a critical defense suppression requirement while protecting our strike aviators», said Cary Ralston, vice president, defense electronic systems, Northrop Grumman.
AARGM is an air-launched missile with the capability to rapidly engage air-defense threats. AARGM is currently deployed with the U.S. Navy and U.S. Marine Corps on the F/A-18C/D Hornet, F/A-18E/F Super Hornet and EA-18G Growler aircraft. AARGM is also integrated on the Italian Air Force’s Tornado Electronic Combat aircraft.