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SIMON CHODORGE PUBLIÉ LE 09/12/2020 À 14H00 Après plusieurs mois de négociations, l'Espagne grimpe à bord du système de combat aérien du futur (Scaf). Airbus a annoncé le 9 décembre la signature d'un contrat-cadre faisant de lui le maître d'oeuvre du projet en Espagne. Il ne faut plus parler d'un avion de combat franco-allemand. Mercredi 9 décembre, l'Espagne a concrétisé son entrée dans le système de combat aérien du futur (Scaf). La nouvelle a été annoncée par Airbus, l'un des principaux acteurs du projet. Pour rappel, le programme Scaf doit remplacer le Rafale de Dassault Aviation et l'Eurofighter à l'horizon 2040. Dix mois de négociations En février, l'Espagne avait déjà signé une lettre d'intention avec la France et l'Allemagne sur son intégration dans le projet. Désormais, les entreprises espagnoles vont pouvoir rentrer dans le vif du sujet. “L'industrie espagnole a signé un premier contrat-cadre portant sur la phase de démonstration du Scaf”, écrit Airbus dans un communiqué. “Cette signature clôt dix mois de négociations destinées à intégrer l'Espagne en tant que troisième pilier national de ce programme”, ajoute l'avionneur européen. Dans le cadre de cet accord, Airbus va diriger les projets Low Observability et New Generation Fighter (NGF) du Scaf en Espagne. Plus précisément, le contrat porte sur des travaux de développement pour les premiers démonstrateurs du Scaf. Airbus Espagne va donc plancher sur des technologie de furtivité (Low Observability) et sur le New Generation Fighter (NGF), l'élément principal du futur système de combat aérien. 300 millions d'euros investis En France, Dassault Aviation assure la maîtrise d'oeuvre du NGF tandis qu'Airbus a été sélectionné comme partenaire principal. Si chaque pays a désigné son champion, une équipe tri-nationale travaille également sur le projet à Arcueil (Val-de-Marne). Les trois pays espèrent ainsi faire voler un prototype de NGF au second semestre 2026. Contacté par L'Usine Nouvelle, Airbus n'a pas précisé le montant du contrat-cadre. Le groupe européen précise tout de même que 300 millions d'euros ont été investis par les États depuis le début du programme. https://www.usinenouvelle.com/article/l-espagne-concretise-son-entree-dans-le-systeme-de-combat-aerien-du-futur-scaf.N1038274

ARMY Sikorksy Aircraft Corp., Stratford, Connecticut, was awarded a $507,036,949 modification (P00163) to contract W58RGZ-17-C-0009 for UH-60M HH-60M aircraft. Work will be performed in Stratford, Connecticut, with an estimated completion date of June 30, 2022. Fiscal 2021 aircraft procurement (Army) funds in the amount of $507,036,949 were obligated at the time of the award. The U.S. Army Contracting Command, Redstone Arsenal, Alabama, is the contracting activity. Lockheed Martin Corp., Orlando, Florida, was awarded a $31,123,618 modification (P00036) to contract W58RGZ-16-C-0008 for sustainment of the Modernized Target Acquisition Designation Sight/Pilot Night Vision Sensor Performance Based Logistics program. Work will be performed in Orlando, Florida, with an estimated completion date of June 30, 2021. Fiscal 2021 Army working capital funds in the amount of $31,123,618 were obligated at the time of the award. The U.S. Army Contracting Command, Redstone Arsenal, Alabama, is the contracting activity. Alliant Techsystems Operations LLC, Plymouth, Minnesota, was awarded a $12,045,421 modification (P00029) to contract W15QKN-15-C-0066 for 120mm Advanced Multipurpose XM1147 high explosive multi-purpose with tracer cartridges. Work will be performed in Plymouth, Minnesota; Rocket Center, West Virginia; Middletown, Iowa; Kingsport, Tennessee; Faribault, Minnesota; Forest Lake, Minnesota; Towanda, Pennsylvania; Cary, Illinois; Louisville, Kentucky; Falconer, New York; Clear Lake, South Dakota; Shafer, Minnesota; Green Bay, Wisconsin; Waunakee, Wisconsin; and Coachella, California, with an estimated completion date of Dec. 3, 2020. Fiscal 2020 other procurement (Army) funds; and 2019 and 2020 procurement of ammunition (Army) funds in the amount of $12,045,421 were obligated at the time of the award. The U.S. Army Contracting Command, Newark, New Jersey, is the contracting activity. NAVY Bell Boeing Joint Project Office, Amarillo, Texas, is awarded a $170,438,450 modification (P00035) against previously awarded, fixed-price-incentive-firm-target, cost-plus-fixed-fee contract N00019-17-C-0015. This modification adds scope for the production and delivery of one CMV-22B variation in quantity aircraft for the Navy and exercises options for V-22 Common Configuration Readiness and Modernization (CC-RAM) Lot 4 requirements. Additionally, this modification provides for planned maintenance interval inspections, repairs, shipping and storage containers and tooling in support of the V-22 CC-RAM program. Work will be performed in Ridley Park, Pennsylvania (91%); and Fort Worth, Texas (9%), and is expected to be completed in September 2024. Fiscal 2021 aircraft procurement (Navy) funds in the amount of $93,510,201; and fiscal 2021 operation and maintenance (Navy) funds in the amount of $766,800 will be obligated at the time of award, of which $766,800 will expire at the end of the current fiscal year. The Naval Air Systems Command, Patuxent River, Maryland, is the contracting activity. General Dynamic Electric Boat, Groton, Connecticut, is awarded a $49,808,303 cost-plus-fixed-fee modification to previously awarded contract N00024-18-C-4321 to exercise options for the New England Maintenance Manpower Initiative for non-nuclear maintenance on submarines based at Naval Submarine Support Facility, New London. Work will be performed in Groton, Connecticut, and is expected to be completed by December 2022. Fiscal 2021 operation and maintenance (Navy) funds in the amount of $10,050,000 will be obligated at time of award and will expire at the end of the current fiscal year. The Naval Sea Systems Command, Washington, D.C., is the contracting activity. General Dynamics Mission Systems, Pittsfield, Massachusetts, is being awarded a $43,212,827 cost-plus-incentive-fee modification (P00001) for the fiscal 2020-2023 Columbia (US01) and Dreadnought Class development, production and installation requirement. Work will be performed in Pittsfield, Massachusetts (90%); United Kingdom (6%); Quonset Point, Rhode Island (3%); and Groton, Connecticut (1%). Work is expected to be completed Nov. 29, 2024. Fiscal 2021 shipbuilding and conversion (Navy) funds in the amount of $28,099,033; United Kingdom funds in the amount of $1,784,240; and fiscal 2021 research, development, test and evaluation (Navy) funds in the amount of $572,760 are being obligated on this award. Of this amount, no funds will expire at the end of the current fiscal year. This contract is being awarded to the contractor on a sole-source basis under 10 U.S. Code 2304(c)(1) and (4) and was previously synopsized on the beta.sam.gov website. Strategic Systems Programs, Washington, D.C., is the contracting activity. Kratos Unmanned Aerial Systems Inc., Sacramento, California, is awarded a $38,691,360 contract modification (P00002) to previously awarded firm-fixed-price contract N00019-20-C-0075. This modification exercises an option to procure 48 BQM-177A subsonic aerial targets for the Navy as well as associated technical and administrative data in support of full rate production lot two deliveries. Work will be performed in Sacramento, California (55.8%); Dallas, Texas (17.6%); Fort Walton Beach, Florida (4.6%); Springfield, Pennsylvania (2.6%); Newton, Kansas (2.1%); Concord, California (1.9%); Milwaukie, Oregon (1.8%); Santa Ana, California (1.8%); Chatsworth, California (1.5%); Greybull, Wyoming (1.3%); and various locations within the continental U.S. (9%), and is expected to be completed in February 2023. Fiscal 2021 weapons procurement (Navy) funds in the amount of $38,691,360 will be obligated at time of award, none of which will expire at the end of the current fiscal year. $806,070 of the funds obligated for this effort were Foreign Military Sales funds converted to weapons procurement (Navy) funds for the replacement of one target expended by the government of Australia. The Naval Air Systems Command, Patuxent River, Maryland, is the contracting activity. DEFENSE LOGISTICS AGENCY LC Industries Inc., Durham, North Carolina, has been awarded a maximum $98,775,719 firm-fixed-price, indefinite-quantity contract for light chemiluminescent and shield light chemiluminescent. This was a sole-source acquisition using justification 10 U.S. Code 2304 (c)(1), as stated in Federal Acquisition Regulation 6.302-1. This is a five-year contract with no option periods. Location of performance is North Carolina, with a Dec. 9, 2025, performance completion date. Using military services are Army, Navy, Air Force and Marine Corps. Type of appropriation is fiscal 2021 through 2026 defense working capital funds. The contracting activity is the Defense Logistics Agency Aviation, Richmond, Virginia (SPE4A6-21-D-0030). AIR FORCE McCallie Associates, Bellevue, Nebraska, has been awarded a $27,635,192 firm-fixed-price, indefinite-delivery/indefinite-quantity contract for C-5M sustainment. This contract is for the delivery of technical data for organizational maintenance of the C-5M using a common source database. Work will be performed in Bellevue, Nebraska, and is expected to be completed June 9, 2025. This award is the result of a sole-source acquisition. Fiscal 2021 operation and maintenance funds in the amount of $7,613,295 are being obligated at the time of award. The Air Force Life Cycle Management Center, Robins Air Force Base, Georgia, is the contracting activity (FA8525-21-C-00001). *Small business https://www.defense.gov/Newsroom/Contracts/Contract/Article/2441580/source/GovDelivery/

Airbus annonce la conclusion de la phase pilote de l'initiative « Innovations for FCAS » qui vise à impliquer les acteurs allemands non traditionnels de la défense - des start-ups, des petites et moyennes entreprises et des instituts de recherche dans le développement de l'avion de combat du futur (SCAF). Cette initiative lancée en avril 2020 a été financée par le ministère allemand de la Défense. Lors de la phase pilote, 18 PME et start-ups ont ainsi travaillé sur 14 projets en étroite collaboration avec Airbus pour obtenir des résultats concrets tels qu'un lanceur de véhicule sans pilote, un démonstrateur cloud de combat sécurisé ou encore un démonstrateur d'intelligence artificielle appliquée à l'analyse des fréquences radio. EasyBourse du 9 décembre 2020

By: Christina Mackenzie   PARIS – French President Emmanuel Macron announced on Dec. 8 that his country's next aircraft-carrier will be nuclear-powered and should be operational by 2038 in time to replace the Charles de Gaulle, which entered active service in 2001. The new aircraft carrier is expected to be the biggest warship France has ever built. Florence Parly, the armed forces minister, said in October that the ship, whatever its propulsion, would be designed to deploy the future combat aircraft system (FCAS) and today her ministry confirmed that the vessel would deploy about 30 of these aircraft “which will be bigger than the Rafales.” The ministry said the ship would be in the 75,000 tonne class (82,673 tons), be around 300 meters long (984 feet) and be able to sail at 27 knots (31 mph), even bigger than the second aircraft carrier that Naval Group was working on in the early 2000s until that program was shelved by the government for lack of money. In comparison, the Charles de Gaulle is 261m (856 feet) long and weighs 42,000 tonnes (46,297 tons) fully loaded. The new ship will have a crew of about 2,000, including the air group. Speaking at Framatome, France's principal nuclear-power company headquartered at Le Creusot in the centre of France, Macron announced just four minutes before the end of his 28 minute speech that he had “decided that the future aircraft-carrier which will serve our country and our navy will, like the Charles de Gaulle, be nuclear-propelled.” It will have two K22 power generators each generating 220 megawatts (hence the 22) derived from the K15 (that generate 150 MW each) that currently power the Charles de Gaulle. Naval Group, which is the prime contractor for these major ship-building projects, immediately issued a statement hailing the decision, pledging to work with its major industrial partners Chantiers de l'Atlantique, TechnicAtome and Dassault Aviation. Pierre Eric Pommellet, chairman and CEO of Naval Group, said, “We are delighted with the announcement (...) which will enable France to maintain its position in the very restricted circle of major powers holding a nuclear aircraft carrier.” Echoing what Macron had said in his speech, Pommellet stressed the importance of projects like this to “ensure the continuity of our skills” and of developing innovative solutions “in the fields of propulsion and high added-value military systems, thus maintaining France's technological lead and its position as a key geostrategic player.” Now that the nuclear option has been chosen to power France's new aircraft carrier, other major decisions will have to be taken, notably concerning the catapults which are a vital part of the project. France has no expertise in this highly specialized technology and so will have to import the catapults from the United States, as it has done for the past 60 years. Those on the Charles de Gaulle are steam-powered, but those on the new aircraft carrier will be electromagnetic. Naval Group and its partners will now start a two-year preliminary design study, which sources said may use a number of the ideas that had been worked on for the aborted second aircraft carrier. That will be followed by more detailed plans with the development phase expected to finish at the end of 2025 at which point the ministry will order the ship. The design phase up to the end of 2025 is expected to cost some €900 million ($1.09 billion) of which €117 million ($142 million) will be spent in 2021. https://www.defensenews.com/global/europe/2020/12/08/macron-kicks-off-french-race-to-build-a-new-nuclear-powered-aircraft-carrier/

By: Lauren Speranza and Nicholas Nelson The incoming Biden administration is expected to reassert ties with Europe, hoping to leverage America's allies and partners at NATO in the great power competition with China and Russia. As U.S. and European leaders set their collective agenda at the next NATO summit, a top priority should be establishing a NATO framework for emerging and disruptive technologies (EDT). For the United States, it is important that the alliance adapt together to defend against algorithms and bots, as much as bullets and bombs. Europe shares this mindset but differs from the United States on key defense tech issues, such as regulation, data, and stakes in national champion companies. To avoid the dangerous transatlantic rifts of the last four years, Brussels and Washington must bridge that gap and forge an alliance approach to EDT. NATO has acknowledged the need to harness the power of such technologies, but current efforts have produced innovation theater, as opposed to fundamental organizational change. NATO lags behind in critical areas such as 5G, hypersonics, artificial intelligence (AI), unmanned systems, and quantum science. In the past, NATO has used frameworks to get member states to agree on priorities, dedicate resources, and empower authorities to act. Looking to the next NATO summit, transatlantic leaders should champion an EDT framework built around four practical pillars: Establishing an organic assessment and coordination capacity at the strategic level. To fulfill its potential as the transatlantic coordinating tool on the security dimensions of EDT, the alliance needs an in-house capability to assess challenges driven by rapidly evolving technologies. It must examine the advantages and vulnerabilities of adversaries and competitors, as well as gaps in NATO's approach and capabilities. NATO must explore how EDT can be applied to tackle below-threshold threats, enhance defense planning, boost exercises, and support decision-making. Building on ongoing efforts, this should occur at the strategic level of the alliance, fusing civil and military perspectives and data to inform the development and introduction of cutting-edge EDT. It must also include a more robust mechanism for aligning capabilities and gaps across members, key partners, and the European Union. As defense budgets contract amidst the Covid-19 crisis, this approach will maximize return on investment and improve NATO's strategic edge. Seeding the market by improving engagement with industry. A strategic assessment function will not be valuable unless industry leaders are engaged and incentivized. NATO needs to connect to the private sector early and often, clearly communicating its priorities and requirements while providing accessible opportunities for industry, including non-traditionals, to readily sell into the alliance. Too often national and international defense organizations do not provide discernable paths to revenue for these companies, artificially limiting their industrial bases. The long lead times for these projects are often unattractive or unfeasible, especially for small companies and start-ups where radical innovation takes place. To remedy this, the alliance should look to the U.S. Department of Defense, which has succeeded in attracting startups and non-traditionals to its ecosystem through rapid awards, proof-of-concept contracts, and matching venture capital funds that start-ups receive. Enhancing standardization and interoperability by creating a system of systems. To meet the challenges of future warfare, the alliance must be able communicate and operate across militaries, capabilities, and domains. This requires more standardized, secure, and resilient platforms, systems, and infrastructure. NATO needs an EDT strategy for integration, not just innovation. Leading candidates for Biden's Pentagon team have emphasized this priority, supporting a CJADC2 concept – a “network of networks” to ensure reliable command and control. The alliance should leverage CJADC2 as a better framework for standardization and interoperability, paving the way for more complex joint operations. This requires a change in doctrine and a shift away from platforms to create a system of systems. Going forward, NATO needs this same approach to rapidly develop and deploy emerging defense and dual-use technologies for conventional and hybrid conflicts. This involves placing big, transformative bets on critical technologies, such as unmanned air and maritime systems, artificial intelligence (AI), and hypersonics. Coordinate with the EU. NATO should better leverage its ability to assign capability and spending targets to encourage its members to innovate. For instance, to complement the 2 percent of GDP defense spending benchmark, NATO could mandate that allies invest a certain portion of that into emerging technologies. It should also rework the 2 percent metric to include civilian investment in dual-use technologies that may fall outside of traditional defense budgets. Where NATO lacks the capacity to enforce these standards, the European Union brings the legislative and budgetary authority to promote them. NATO and the EU should coordinate research and development, provide seed funding toward these targets, and reinforce them with legal tools where possible. NATO and the EU should also initiate a strategic dialogue to address fundamental issues of tech governance and data sharing. The ability to employ emerging and disruptive technologies more effectively than competitors such as China and Russia will shape the global role of the United States and the transatlantic alliance in the coming decades. NATO has begun to talk the talk, but now it must walk the walk. https://www.defensenews.com/opinion/2020/12/08/nato-needs-a-strategy-for-emerging-and-disruptive-technologies/

By: David B. Larter WASHINGTON – The name of the game in the Pacific is stand-off range. But with longer range torpedoes and anti-ship missiles in the arsenal, submariners are looking to a new domain to help them extend their deadly reach: The air. In an October request for information, Naval Sea Systems Command's Submarine Combat and Weapons Control Program Office asked industry for input into a “Submarine-Launched Unmanned Aerial System,” or SLUAS, currently in development. The Navy has been interested in sub-launched drones for some time and has been testing prototypes, but the RFI shows the service is getting serious about the idea as it adds longer-range torpedoes and anti-ship cruise missiles to the arsenal of its attack submarines. The idea for the SLUAS is an ambitious one. The drone would launch from a submerged submarine out of a 3-inch ejector tube used for sonobuoys, flares and countermeasures among other things. The battery-operated UAS would then deploy its wings and operate for an hour, well beyond the range visible from just the low-in-the-water periscope. Additionally, the UAS should have an “electro-optic capability with reliable target solution analysis,” the RFI said, adding that it should be able to “operate at ranges out to the line-of-sight radio horizon, and use a variable bandwidth encrypted datalink with at least 256-bit encryption strength. The drone should also have a degree of autonomy and “include the ability to operate in an emission-controlled environment and operate without constant radio communication links.” “Every submarine has a 3-inch launcher, so in theory, every submarine could operate with UASs,” said Bryan Clark, a retired submarine officer and senior fellow with The Hudson Institute. “The idea is that you would be about the size of a sonobuoy — it could be pretty long — and you'd put it inside a canister. Then you launch this in a canister, it floats to the surface and the USA deploys from there. “And from there it can either connect up with the submarine or it could connect with another unit, and it gives you the ability to have over-the-horizon surveillance.” “The demonstrations have been pretty successful,” Clark added. The responses to the RFI were due in November. https://www.defensenews.com/naval/2020/12/07/the-us-navy-wants-to-find-ships-to-kill-using-aerial-drones-launched-from-submarines/

Seth J. Frantzman Rafael Advanced Defense Systems has been investing in quantum technology in the hopes that it will improve existing sensors on the battlefield and could lead to a solution for GPS-denied environments. Because the technology is linked to better positioning, navigation and time-keeping, company leaders said they believe it could “revolutionize” this space. Alternative means of PNT have become a priority for militaries throughout the world as jammers become less expensive and more ubiquitous while the reliance on PNT information increases. In particular, Rafael executives are encouraged that “extremely high-performance quantum accelerometers and gyroscopes can be designed to be the basis of the next generation inertial navigation systems,” a company official said. These sensors can exploit the quantum properties of atoms to measure acceleration and angular rates with unprecedented accuracy, which, in turn, allows for “dead-reckoning navigation for relatively long periods of time while essentially keeping GPS/GNSS accuracy.” Rafael's team working on quantum technology, which includes Alon Gabbay, head of miniature quantum sensors group of the Manor division and Nitzan Link, of the CTO Technology Center of the Manor Division of Rafael Advanced Defense Systems, were among those who discussed the potential for the technology with Defense News. Quantum technology is about sensors that “measure discrete energy levels and difference in change with magnetic or electric fields,” a Rafael official said. The struggle for engineers has been that while this technology has existed for decades, particularly in university labs, miniaturizing it and using it in defense systems is a challenge. While Rafael is traditionally Israel's research and development arm for new weapon systems, it is also the company behind the Trophy defense system, Litening targeting pod and Iron Dome air defense technologies. Rafael has also rolled out new digitized battlefield concepts and used optics to better match scenes and leverage artificial intelligence. “Quantum technologies can give rise to ultra-sensitive gravitational and magnetic measurements, hence opening the possibility of using anomaly maps to aid inertial navigation,” a company official told Defense News. “Atomic clocks use quantum technologies to provide highly stable and accurate frequency standards; the resulting technology can be used for time-keeping opening new possibilities for using communications as an aid to an integrated navigation system.” https://www.c4isrnet.com/industry/2020/12/08/rafael-hopes-quantum-technology-can-help-in-gps-denied-environments/

NAVY Lockheed Martin Rotary Mission Systems, Orlando, Florida, is awarded an $89,246,355 modification (P00016) to previously awarded firm-fixed-price, cost-plus-fixed-fee, cost reimbursable contract N68335-18-C-0681. This modification exercises an option to procure 35 electronic Consolidated Automated Support System (eCASS) full rate production units and related equipment. This modification provides for the procurement of four self-maintenance and test/calibration operational test program sets, five calibration equipment suites/kits, 36 rack rail kits, 44 shore installation kits and 28 ship installation kits. Work will be performed in Orlando, Florida, and is expected to be completed in December 2023. Fiscal 2019 aircraft procurement (Navy) funds in the amount of $9,102,737; and fiscal 2021 aircraft procurement (Navy) funds in the amount of $80,143,618 will be obligated at time of award, of which $9,102,737 will expire at the end of the current fiscal year. The Naval Air Warfare Center Aircraft Division, Lakehurst, New Jersey, is the contracting activity. L3 Technologies Inc., Salt Lake City, Utah, is awarded a $15,399,324 modification (P00025) to previously awarded firm-fixed-price contract N00019-18-C-1030. This modification exercises an option to procure 12 AN/SRQ-4 kits and associated components for the MH-60 Common Data Link system. Work will be performed in Salt Lake City, Utah, and is expected to be completed in February 2023. Fiscal 2021 other procurement (Navy) funds in the amount of $15,399,324 will be obligated at time of award, none of which will expire at the end of the fiscal year. The Naval Air Systems Command, Patuxent River, Maryland, is the contracting activity. Progeny Systems Corp.,* Manassas, Virginia, is awarded a $10,179,429 firm-fixed-price modification to previously awarded contract N00024-18-C-6410 for the procurement of MK54 MOD 1 Lightweight and MK48 Heavyweight torpedo components. This modification is in support of the MK54 MOD 1 Lightweight and MK48 Heavyweight torpedo programs. Work will be performed in Towcester, United Kingdom (98%); Charleroi, Pennsylvania (1%); and Manassas, Virginia (1%), and is expected to be completed by January 2023. Fiscal 2020 weapons procurement (Navy) ($6,688,666; 66%); 2019 weapons procurement (Navy) ($2,433,593; 24%); and 2021 weapons procurement (Navy) ($1,057,170; 10%) funding will be obligated at time of award, of which funds in the amount of $2,433,593 will expire at the end of the current fiscal year. The Naval Sea Systems Command, Washington, D.C., is the contracting activity. WASHINGTON HEADQUARTERS SERVICES Hunter Strategy LLC, Washington, D.C. (HQ0034-21-C-0011), was awarded a $20,954,134 firm-fixed-price, level-of-effort contract to provide support to the Enterprise Account Tracking and Automation Tool (ATAT) for the Cloud Computing Program Office. ATAT will provide Department of Defense organizations with the ability to manage cloud accounts, manage authorized organizational users, access billing information and policies and apply and enforce cloud security policies. Proposals were solicited via the beta.sam.gov website with two received. This contract award includes one base period ending on Dec. 20, 2021, with four one-year option periods potentially extending performance through Dec. 20, 2025. Work will be performed in Crystal City, Virginia. Washington Headquarters Services, Alexandria, Virginia, is the contracting activity. (Awarded Dec. 7, 2020) AIR FORCE Raytheon Co., Woburn, Massachusetts, has been awarded a $13,648,819 firm-fixed-price modification (P00034) to contract FA8730-17-C-0010 for Qatar Early Warning Radar (QEWR). This modification is for the procurement, manufacture and storage of spares in support of sustainment for the QEWR. Work will be performed in Andover, Massachusetts, and is expected to be completed by December 2025. This modification brings the total cumulative face value of the contract to $1,137,800,144. This modification involves 100% Foreign Military Sales (FMS) to the country of Qatar. FMS funds in the full amount are being obligated at the time of award. The Air Force Life Cycle Management Center, Hanscom Air Force Base, Massachusetts, is the contracting activity. ARMY L3 Technologies Inc., Londonderry, New Hampshire, was awarded a $13,148,618 firm-fixed-price contract for the procurement of binocular night vision devices and accessories. Bids were solicited via the internet with one received. Work will be performed in Londonderry, New Hampshire, with an estimated completion date of Nov. 8, 2021. Fiscal 2010 Foreign Military Sales (United Arab Emirates) funds in the amount of $13,148,618 were obligated at the time of the award. The U.S. Army Contracting Command, Aberdeen Proving Ground, Maryland, is the contracting activity (W91CRB-21-C-5004). *Small business https://www.defense.gov/Newsroom/Contracts/Contract/Article/2439885/source/GovDelivery/

by Yaakov Lappin Israel's Rafael Advanced Defense Systems has offered South Korea its Next-Generation Combat Vehicle Suite (NGCV-S) as the Republic of Korea Army (RoKA) prepares to upgrade its K1A2 main battle tanks (MBTs) and procure some 600 Hyundai-made armoured personnel carriers (APCs) as part of its Tiger 4.0 modernisation programme. Rafael has submitted requests for information from South Korea on both the MBT and APC programmes Udi N, head of marketing at Rafael's land manoeuvre systems directorate, told Janes that the NGCV-S offers several capabilities for armoured vehicles to boost their lethality, survivability, and ability to engage multiple targets simultaneously. He said the suite includes the company's Armor Shield P passive add-on armour and the Trophy active protection system (APS), the latter of which is used on US Army MBTs as well as on the Israeli military's Namer heavy APCs. Other offers as part of the suite include reactive armour kits and the Samson medium-calibre remote weapon station (RWS). The station is designed to mount a 30 mm or 40 mm gun and co-axial 7.62 mm machine gun that be integrated with Rafael's Spike missile launcher as well as the fifth-generation Spike anti-tank guided electro-optical missile for mid- and long-range attacks. “Combining the Spike missile system with the Samson Integrated 30 mm RWS and its combat management systems transforms the remote-controlled weapon station and the vehicle into a versatile fighting machine – able to simultaneously neutralise targets at multiple ranges, with the pinpoint accuracy required in the urban arena as well as in GPS-denied zones,” said Rafael in a statement. https://www.janes.com/defence-news/news-detail/rafael-offers-its-next-gen-combat-vehicle-suite-to-south-korea