Dassault Aviation au service des armées

On the same subject

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  February 12, 2024 | International, Aerospace

  Norway plans to order more NASAMS air defence for Ukraine

  The new order is subject to approval by the Norwegian Parliament and will come in addition to repurchasing the equipment that has already been donated to Ukraine.

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  October 10, 2018 | International, Land

  Decision coming soon on who will build prototypes for a new Army light tank

  By: Jen Judson WASHINGTON — The Army is expected to make a decision by the end of the year on which companies will build prototype vehicles as part of its light tank competition. The requirement for a Mobile Protected Firepower vehicle to provide infantry brigade combat teams a protected, long-range, cyber-resilient, precision, direct-fire capability for early or forcible entry operations was first laid out in the Army's combat vehicle modernization strategy released in October 2015. The Army is looking to rapidly procure this capability by turning to commercial off-the-shelf technology rather than spend years developing it. Several competitors submitted offerings to the competition in late February in the hopes that they are selected to build 12 prototypes that will be demonstrated and evaluated — and that will ultimately lead to the service selecting a winner to go into production. The low-rate initial production plans are for roughly 54 vehicles — 26 to start, with an option to build 28 more, as well as retrofitting eight of the prototype vehicles. The first unit equipped is planned for 2025. If selected, the contractors have 14 months to deliver MPF prototypes to the Army. A final request for proposals will likely come out in late October or November, and the service will make a decision shortly thereafter. SAIC partnered with Singapore's ST Kinetics and Belgium-based CMI Defense; BAE Systems and General Dynamics Land Systems all submitted written proposals, vehicles and armor coupons for testing. The SAIC team integrated CMI's Cockeril 3105 turret on an ST Kinetics next-generation armored fighting vehicle chassis as its offering. BAE Systems is offering an M8 Buford Armored Gun System with new capabilities and modernized components. GD submitted an offering that combines a version of its latest Abrams turret with a chassis that leverages experience from the United Kingdom's AJAX program. “We have additional new and proven technologies to meet MPF specific requirements,” a GD spokesperson said. The Army has already moved through its testing and evaluation ahead of a decision later this year. Vehicle bid samples were tested to evaluate mobility and firepower performance, and the armor coupons were tested to evaluate protection performance. According to Jim Scanlon, senior vice president and general manager of SAIC's defense systems group, the company did both pre-validation and follow-on testing of its vehicle offering before and after the Army's own evaluation period. The company has brought the vehicle to the Association of the United States Army's annual conference. If selected, SAIC plans to perform final integration work in its Charleston, South Carolina, facility, with the other companies in the team building their contributions in their own facilities. However, Scanlon said, the company is working to come up with ways to do more and more of the production work in the United States, and both companies involved are on board and see moving some work into the country as a necessary investment as big combat vehicle programs gain traction. All options are being considered, Scanlon said. BAE plans to build its EMD prototypes within its manufacturing network including York, Pennsylvania, Aiken, South Carolina, Anniston, Alabama and Sterling Heights, Michigan, according to the company's MPF capture lead Greg Mole. GD said it would not release build locations for the vehicles at this time. The MPF program now falls under the Army's Next-Generation Combat Vehicle cross-functional team's purview, which lies under the new Army Futures Command, charged with modernizing the force more rapidly to maintain overmatch against peer adversaries. https://www.defensenews.com/digital-show-dailies/ausa/2018/10/10/decision-coming-soon-on-who-will-build-prototypes-for-a-new-army-light-tank

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  October 4, 2018 | International, Aerospace, C4ISR

  Israel Plans Anti-Missile Nano Satellite Constellation

  By ARIE EGOZI TEL AVIV: Israel is planning constellations of nano satellites, built by Israel Aerospace Industries (IAI), that will allow almost continuous coverage of “areas of interest,” which are likely to include Iran, Syria, Lebanon and other countries, according to experts that are not connected in any way to the program. IAI refused to comment. The first nano satellite was developed by IAI and was launched into space in 2017 as part of a scientific experiment. The 5-kilogram satellite — approximately the size of a milk carton — is equipped with special cameras able to identify various climatic phenomena, and a monitoring system that allows the choice of areas to be imaged and researched. ”We are developing the capability to launch a constellation of Nano satellites. The large number of satellites will give us the capability for a much higher rate of revisits, and actually a continuous monitoring of areas of interest.” says Opher Doron, general manager of IAI's Space Division. The nano satellites optical payloads are smaller and the quality of their optical payloads is lower. ”But by using a temporal resolution method this problem is dealt with in a very effective way,” Doron claims. “This method is not directly related to the quality of the sensor but is based on the frequency of revisits over a site.“ The other problem with smaller satellites is color. “Resolution is, of course, very important but we also work on improving the color quality of the images, Doron said. “A good intelligence expert does not need color to extract, the needed intelligence from a satellite image, but when it comes to decision-makers, color is of great importance.” What underpins all this? It takes a ballistic missile 12 to 15 minutes to travel from Iran to Israel. The earlier a launch is detected and the earlier the trajectory of the missile can be plotted, the better the chances to intercept it far from its designated target. Today, low orbit Ofeq spy satellites visit “areas of interest” in wide intervals so their optical or radar payloads cannot keep a persistent watch. When it comes to the ballistic missile threat, this is a major problem. Israeli sources say that some 30 minutes are needed from the command to prepare a ballistic missile for launch until it is ready for launch, and this if the protection silos are well equipped. If the enemy is aware of the “visiting” time of the spy satellites over his territory this can be the perfect time to avoid detection of the preparations until the launch itself. Once launch occurs, Israel is supposed to get warnings from Lockheed Martin's Space-Based Infrared System (SBIRS),the US constellation of geosynchronous earth orbit (GEO) satellites. The U.S also deploys an X-band radar system in southern Israel to improve detection of ballistic missiles. This complements the layer supplied by the Green Pine radar, part of the Israeli Arrow missile interceptors. The first nano satellite was launched from India on the PSLV-C37 launcher with 103 other nano satellites. The plan to build and launch nano satellites first emerged a decade ago. A joint company of IAI and Rafael would undertake the mission. But that plan was deserted. Yizhak Ben Israel, chairman of the Israeli space agency, served in the Israeli air force and later was in charge of developing Israel's most advanced and classified military systems at the development directorate in the Defense Ministry. He notes that, although nanosats possess much less exquisite capabilities than SBIRS or other large satellites, “when you use a constellation of such satellites the combined capability can be very effective in missions like locating missile launchers.” The other advantage of nano satellites is their price: “You go from hundreds of million of dollars for a full size imaging satellite to some millions of dollars when it comes to a nano satellite.” Not directly related to the nano satellite program but part of Israel's space effort, IAI teamed with British start-up company Effective Space to make a fleet of special satellites weighing roughly 880 pounds that can refuel other satellites in space. IAI signed an agreement for technological and financial cooperation with the smaller company. While Effective Space is headquartered in London, its CEO, Arie Halsband, was general manager of IAI's space division before starting his own company. https://breakingdefense.com/2018/10/israel-plans-anti-missile-nano-satellite-constellation