24 septembre 2018 | International, Naval

Northrop Grumman wins modification on big electronic warfare contract

By:

The Navy awarded Northrop Grumman a cost-only modification valued at $9 million related to its work on a portion of the Navy's premier electronic warfare system.

The award relates to Block 3 of the Surface Electronic Warfare Improvement Program, or SEWIP Block 3, provides ships a scalable electronic warfare enterprise suite with improved electronic attack capabilities.

Last year, the Department of Defense's Inspector General's office found that the $5.7 billion SEWIP was experiencing significant cost overruns that could put the program behind schedule.

Though much of the specific amounts were redacted, the report called the overruns “significant increases” over the budget for the engineering and manufacturing development phase of SEWIP Block 3.

Naval Sea Systems Command on Feb. 12, 2015, awarded the SEWIP Block 3 design and development contract to Northrop Grumman with an option for the EMD phase originally valued at $91.7 million.

https://www.c4isrnet.com/electronic-warfare/2018/09/21/northrop-grumman-wins-modification-on-big-electronic-warfare-contract

Sur le même sujet

  • La défense française contribue au budget des régions à hauteur de 50 Md€ par an

    29 octobre 2021 | International, Aérospatial, Naval, Terrestre, C4ISR, Sécurité

    La défense française contribue au budget des régions à hauteur de 50 Md€ par an

    Chaque année, les revenus liés au ministère des Armées alimentant les territoires s'élèvent à 50 Md€ environ. Ils découlent de plusieurs dynamiques qui, dans certaines régions, se cumulent pour aboutir à des systèmes locaux liés à la défense, selon l'observatoire économique de la Défense (OED). Ces retombées ne sont néanmoins pas réparties de manière équivalente sur le territoire français. Ainsi, l'Ile-de-France (32%), la Nouvelle Aquitaine (13%) et la région PACA (10%) concentrent à elles seules 53% des revenus. Les retombées en Outre-mer sont également importantes, tout comme à l'étranger, la France disposant de bases militaires dans d'autres pays. Outre les trois régions métropolitaines citées, la Bretagne et la Nouvelle Aquitaine sont également des espaces intéressants pour la défense avec la présence de ports (Brest) ou d'espaces de manœuvre et d'essais de matériels de guerre. Selon l'étude, il existe logiquement une certaine proximité géographique entre les industriels (base productive) et les emprises militaires (base publique), une proximité institutionnelle (parcours professionnels proches entre ingénieurs, techniciens et militaires) et une proximité technique entre les industriels et les personnels militaires, utilisateurs et testeurs. Sud-Ouest du 25 octobre

  • U.S. Air Force to Develop AI-Powered Combat UAV

    2 avril 2019 | International, Aérospatial

    U.S. Air Force to Develop AI-Powered Combat UAV

    Author: Mike Rees The U.S. Air Force has announced that its Office of Strategic Development Planning and Experimentation at the Air Force Research Laboratory is working on fielding a prototype Autonomous Unmanned Combat Air Vehicle as an Early Operational Capability as early as 2023. The program, known as Skyborg, and the SDPE office have issued a request for information to industry to conduct market research and concept of operations analysis to learn what is commercially available now as high technology readiness level capabilities which can meet the requirements and timeline of the Skyborg program. Skyborg officially stood up as a fiscal year 2019 funded pathfinder program through SDPE in October 2018, according to Ben Tran, Skyborg program manager. “There was a lot of analysis that determined what was put into the CRFI,” Tran said. “We've been given the overall objective to have an early operational capability prototype fielded by the end of calendar year 2023, so this is our first step in determining what the current state of the art is from a technology perspective and from a systems engineering perspective to provide that EOC capability in 2023.” Low cost, attritable, unmanned air vehicles are one way to bring mass to the fight when it comes to addressing potential near-peer engagements in the future, according to Tran. “We also know there is heavy investment by our near-peer adversaries in artificial intelligence and autonomy in general. We know that when you couple autonomy and AI with systems like low-cost attritables, that can increase capability significantly and be a force multiplier for our Air Force and so the 2023 goal line is our attempt at bringing something to bear in a relatively quick time frame to show that we can bring that kind of capability to the fight.” Matt Duquette, an AFRL Aerospace Systems Directorate engineer, brings a background in UAV control, autonomy, and modeling and simulation of UAVs, especially teams of UAVs to the effort while assisting the Skyborg program with formulating its approach to the autonomy system and some of the behaviors that the UAVs will have. “Skyborg is a vessel for AI technologies that could range from rather simple algorithms to fly the aircraft and control them in airspace to the introduction of more complicated levels of AI to accomplish certain tasks or subtasks of the mission,” Duquette said. This builds on much of the AFRL foundational work with AI shown with programs such as Have Raider and the Auto Ground and Air Collision Avoidance systems, which prove that levels of autonomy in high performance aircraft are not only possible, but also practical. “Part of our autonomy development is building assurance into the system. You can either build assurance by using formal methods or approaches where at design time, as you develop these autonomous capabilities, you guarantee certain behaviors, or a more practical approach is to assess the capabilities of these behaviors at run time, meaning while they're running on the aircraft. So, those are the capabilities that we're interested in looking at from the experimentation level to see what type of assurance you need in the system so you can mix high and low criticality.” “We're looking at a range of vehicle performance parameters – mission analysis will help us determine what the final outcome is and the responses from the CRFI will help us understand what the performance is of currently available systems and whether those will meet the needs or not. Everything from keeping up with combat platforms to slower platforms for sensing. There will be a range of possibilities there,” said Patrick Berry, from AFRL's Sensors Directorate, who is supporting the Skyborg program by conducting modeling, simulation and analysis. Although Skyborg is not scheduled for any particular type of aircraft platform at this time, Tran said the CRFI emphasizes the importance of an open systems architecture, having modularity in the system, not only from a sensing capabilities standpoint, but overall mission systems, as well as the autonomy associated with the mission capability for the platform. “We've partnered with the 412th Test Wing at Edwards Air Force Base, California, and specifically an organization called the Emerging Technologies Combined Test Force and we're working with them beginning with small, fast-moving UAVs to test the current state of the art in AI and autonomy in those airplanes and the ability for them to autonomously team and collaborate in flight,” Tran said. Machine learning has progressed greatly over the last few years and we're very inspired by those results and excited by things that are going on in the gaming industry for instance,” said Maj. Ryan Carr, from AFRL's Aerospace Systems Directorate. “We expect that technology will continue to mature fairly rapidly. What we really need to understand is, ‘How do you take that and do something like bring it to the real world and fly with it for example?' The thing we're trying to get at early on is how to do that safely. We're talking about run-time assurance, working hand-in-hand with the flight test community who have a very long record of safe flight testing. That's really what we want to focus our attention on in this early period,” Carr said. “We want to do this in a way that builds trust in the system as you go along so that when you get to that EOC, you will have established a baseline of trust so that operational youth will believe what the system will do or believe it's safe. It's not just that end-state capability, it's the trust as you go along,” he added. Before operational AI innovation can occur, the Air Force must field an autonomous system that meets an immediate operational need and can serve as an iterative platform to facilitate complex AI development, prototyping, experimentation and fielding, and that system is Skyborg, the CRFI says. https://www.unmannedsystemstechnology.com/2019/03/u-s-air-force-to-develop-ai-powered-combat-uav/

  • Boeing Awarded $2.3 Billion for Additional U.S. Air Force KC-46A Tankers

    30 novembre 2023 | International, Aérospatial

    Boeing Awarded $2.3 Billion for Additional U.S. Air Force KC-46A Tankers

    One hundred fifty-three KC-46A multi-mission aerial refuelers are now on contract globally, providing advanced capability advantages for the joint force and allies.

Toutes les nouvelles