29 novembre 2022 | International, Autre défense
Economie de guerre : comment l'industrie de défense doit se « civilianiser » (1/4)
Alexandre Papaemmanuel propose une étude en quatre volets sur le thème "Prépa...
12 juin 2018 | International, Aérospatial
Dassault Aviation poursuit sa stratégie d'implantation en Belgique
Dassault Aviation a profité du salon Eurosatory pour signer ce 12 juin un protocole d'entente avec Thales Belgium pour l'implantation d'un centre d'excellence dédié à la cybersécurité en Belgique.
Cet accord s'inscrit dans le cadre des compensations industrielles liées à l'offre française de Rafale pour les forces aériennes belges. Les offsets liés au contrat prévoient au moins 20 milliards d'investissements sur 20 ans et concerneraient quelques 5 000 emplois. Dassault Aviation n'exclut pas un "regain d'activité" et une augmentation de ces chiffres en cas de signature. Quatre-vingt accords ont d'ores et déjà été signés par la Team Rafale pour renforcer les partenariats industriels entre les deux pays.
Parmi les coopérations envisagées, des centres de recherche sur l'interface homme-machine, la fabrication additive ou encore la simulation numérique, mais aussi la fondation d'un "centre de l'innovation" dans le domaine de la maintenance prédictive, ainsi que la mise en place d'un centre de maintenance Rafale.
Ces accords de coopération seront mis en place en cas de victoire du GIE Rafale en Belgique, "Les activités pourront être lancées immédiatement", explique-t-on chez l'industriel - qui dit rester confiant sur ses chances d'attribution du contrat, estimé à 3,6 milliards d'euros.
La France avait présenté à l'automne dernier une proposition "d'État à État" à la Belgique, sortant de fait de l'appel d'offres lancé en mars 2017 pour l'acquisition de 34 nouveaux avions de combat. Face à la proposition française, Lockheed Martin et son F-35, ainsi que le consortium Eurofighter - la compétition semblant davantage se jouer entre les avions français et américain.
Sur le même sujet
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19 novembre 2021 | International, Aérospatial
UAE Air Force awards $3 billon maintenance contact to local firm GAL
To fulfil this agreement, GAL signed another contract with a separate Edge subsidiary, AMMROC, to perform the maintenance at the latter's Al Ain facility, which was first unveiled at the 2019 Dubai Airshow.
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28 juin 2018 | International, C4ISR
Army: Individual Soldiers Will One Day Control Swarms of Robots
By Matthew Cox Army robotics officials at Fort Benning, Georgia are trying to give individual soldiers the capability to control swarms of air and ground robotic systems for missions that often require large numbers of troops to accomplish. U.S. ground forces have used small ground robots and unmanned aerial systems for years, but only on a small scale, said Don Sando, director Capabilities Development and Integration Directorate at Benning. "To really get a large benefit from robotic systems, we have to break the one-soldier, one-robot link, because right now, you generally need one operator for one robotic system and that is effective and interesting, but when I can have dozens of robotic systems controlled by one soldier, now I have a significant advantage," Sando told a group of defense reporters today on a conference call. A single soldier could conduct reconnaissance over "large areas with fewer soldiers and many dozens of robotic systems," Sando said. "That starts to matter especially in conditions such as dense urban environment," Sando said. "The problem with urban environments is they consume soldiers ... limited lines of sight, tunnels, buildings -- all the things that just take manpower to overcome and control. "If we can expand that with robotic systems, both air and ground, then that has significant impact." The concept could be developed to enhance communications battlefields when networks are hampered by enemy activity as well as natural obstacles. "If our communications infrastructure is going to be contested, as we know it will, then how can I regenerate quickly and effectively in a given area with robotic systems, both air and ground, to create that network?" Sando said. CDID officials are developing a common controller that can control air and ground robots regardless of the model. "We are very close on that; we did some assessment last year. We proved the feasibility of about three different versions of controllers that can effectively control air and ground robotic systems," Sando said. "The advantage to that is a soldier only has to learn one system as opposed to every robot has its own unique controller." The goal is to make a decision on a common controller by late fiscal 2019, Sando said. But the problem is more than just choosing the right controller. "How do you train a soldier, and how do you train leaders to do that? Sando said. "It's one thing to have two hands on your rifle -- one soldier, one system. It's one thing to be a small unit leader, to have a few subordinate leaders under your control -- it's something else to have dozens of under your control." Organizations continue to come to Benning to "practice and develop algorithms to employ swarming unmanned aerial systems," Sando said. "The next thing beyond that is OK, how do I swarm ground robotic systems? How can I do that?" he said. "That is the thing we are least developed on and that's the thing we want to start trying to emphasize. "We are going to continue to develop that and test that and I think that poses the next really large return on investment as we expand robotic systems." https://www.military.com/defensetech/2018/06/27/army-individual-soldiers-will-one-day-control-swarms-robots.html