24 avril 2024 | International, Terrestre

Transforming defence capabilities through a technology-led approach - Army Technology

The adoption of a data-centric approach to operations will be critical to managing the demands of the future battlespace.

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  • The Pentagon can now buy US-made small drones from these five companies

    21 août 2020 | International, Aérospatial

    The Pentagon can now buy US-made small drones from these five companies

    Nathan Strout WASHINGTON — Beginning in September, entities across the U.S. Department of Defense will be able to buy small, American-manufactured drones from five select companies, allowing users in the field to quickly and easily gain a bird's eye view of their environment. A spin-off of U.S. Army efforts to develop a rucksack-packable quadcopter with the Short Range Reconnaissance (SRR) program of record, the Defense Innovation Unit's Blue sUAS effort let's U.S. government customers purchase trusted small Unmanned Aerial Systems (sUAS) that can take off and land vertically. The new drones were developed to comply with Section 848 of the 2020 National Defense Authorization Act, which prohibits the procurement of UAS built in China. Drone configurations will be available from five manufacturers: Altavian, Parrot, Skydio, Teal, and Vantage Robotics. “I think the fact that we started a program with a single requirement around an Army effort and were able to scale it across not only all of the services in DoD to include (U.S. Special Operations Command) and the combatant commands as well as the inter-agency federal government partners ― at least to me ― is super exciting,” Chris Bonzagni, a program manager within DIU's autonomy portfolio and an sUAS subject matter expert, told C4ISRNET. “As a former infantryman, having this capability when I was deployed to Iraq would have been a dream come true.” While Blue sUAS uses the same aerial vehicles as SRR, it offers a vendor-provided ground control system and radio configurations that can be used by customers across DoD and the federal government more broadly. Blue sUAS drones will be available on the GSA schedule starting in September 2020, though DoD entities can also pursue a production contract via Other Transaction Authority, DIU noted in their announcement. “Blue sUAS represents a tremendous first step toward building a robust and trusted UAS domestic industrial base that ensures sustained delivery of highly-capable, secure UAS to the warfighters that depend on it,” said Michael Kratsios, Acting Under Secretary of Defense for Research and Engineering. “Blue sUAS showcases how we can both work with small, nontraditional companies and our allies and partners to quickly pilot cutting-edge technologies that support our mutual defense.” The path to Blue sUAS started about two years ago, according to Bonzagni. The Army approached DIU for help adopting commercial quadcopters for use by every platoon. DIU staff walked the Army through their Commercial Solutions Opening process, distilling about 60 pages of requirements to just a page and a half, making them more accessible to commercial companies looking to work with DoD. Those specifications were posted in November 2018, drawing 34 responses from industry. DIU accepted pitches from half of those companies, and ultimately downselected to just six companies five months later in April 2019. Of those six companies, four had never even worked with DoD before. “Blue sUAS is a great example of DoD acquisition reform by lowering the barrier to entry for non-traditional companies to rapidly iterate shoulder to shoulder with warfighters to deliver highly capable sUAS tailored to mission needs,” said Under Secretary of Defense for Acquisition and Sustainment Ellen Lord in a statement. Under those contracts, DIU worked with those six companies to modify their mature commercial products for broader DoD needs. Among other things, the companies had to incorporate a thermal camera, add a DoD data link, cyber test the drones and ruggedize them for field use. Midway through development, Congress passed a new requirement in the annual defense policy legislation, prohibiting the operation or procurement of UAS manufactured in China. That effort grounded significant numbers of government drones, said Bonzagni, and there were no suitable U.S.-manufactured alternatives available. While the Army continued to focus on developing a solution specifically for its soldiers through SRR, the new requirement opened up a much broader need across the federal government for U.S.-manufactured sUAS. DIU was able to leverage the Army's investment in SRR and make the technology available for all federal government customers — including organizations that use drones every day like the Bureau of Land Management or the U.S. Geological Survey — as Blue sUAS. Drones available through Blue sUAS can be assembled in two minutes or less and will have an operational range of over 3 kilometers, flight endurance greater than 30 minutes, and can fly through dust and rain. All products are three pounds or greater. According to Bonzagni, DIU is looking for a pricing range between $7,000 and $15,000 per unit, although the end price point will vary based on configuration. “While all these offerings were derived from essentially consumer-based [products] ― in some cases toys and some cases fun cameras in the sky — these are sUAS built for work,” explained Matthew Borowski, program manager within DIU's sUAS portfolio and an sUAS subject matter expert. “There really is no consumer offering that has the type of payload package that these drones have on them, including higher resolution thermal cameras [and cameras with seamless zoom].” https://www.c4isrnet.com/unmanned/2020/08/20/department-of-defense-can-now-buy-us-manufactured-small-drones-from-these-five-companies/

  • Israel, US Unveil Arrow 4, Missile Defense With Eye On Hypersonic Threats

    22 février 2021 | International, Terrestre

    Israel, US Unveil Arrow 4, Missile Defense With Eye On Hypersonic Threats

    TEL AVIV: Israel and the U.S have begun development of the Arrow 4 ballistic missile interceptor to deal largely with new Iranian long-range ballistic missile threats. A key design feature for the new Arrow will be winglets, helping it to intercept threats inside the atmosphere, in particular hypersonic missiles. “Israel needs to plan its missiles defense capabilities for many years to come. At this point there is no hypersonic missile threat on Israel, but when you design such an advanced interceptor, this capability should be included as some countries develop such missiles and in the middle east you must expect the unexpected,” an expert who spoke that with BD on condition of anonymity said. Israeli defense minister Benny Gantz, making the announcement on Feb. 18, said the development of Arrow 4 with the U.S will result prepare the two powers for evolving threats in the Middle East, and beyond. The Arrow Weapon System is a major element of Israel’s multilayered missile defense array. It includes advanced radar systems, developed and produced by IAI subsidiary, Elta. It also includes a BMC system developed by Elbit Systems, and a Launch Array including interceptors produced by MLM (a subsidiary of IAI). Defense industries Rafael and Tomer are also involved in the development and production of the Arrow interceptor. Arrow 2 has been operational since 2000, providing endo-exoatmospheric defense. Arrow 3, an exoatmospheric missile defense system, was delivered for operational use in 2017. It serves as the upper layer of Israel’s multi-tier missile defense array. Over the past few years, both of the interceptors were improved and demonstrated excellent capabilities during successful tests held in Israel and in Alaska. Development of Arrow 4 is jointly managed by the Israel Missile Defense Organization (IMDO), in the Directorate of Defense R&D (MAFAT) of the Israel Ministry of Defense, and the U.S. Missile Defense Agency (MDA). According to the Israeli MOD the Arrow-4 will replace the Arrow-2 interceptors over the coming decades. Jacob Galifat, general manager of Israel Aerospace Industries (IAI)’s MLM division, said  the new version will be the most advanced of its kind in the world.

  • Replacing the Bradley is the top priority for the Army’s next-gen combat vehicle modernization team

    9 octobre 2018 | International, Terrestre

    Replacing the Bradley is the top priority for the Army’s next-gen combat vehicle modernization team

    By: Jen Judson WASHINGTON — The modernization team tasked with advancing the Army's next-generation combat vehicles is focused, as its top priority, on replacing the Bradley Fighting Vehicle with an Optionally Manned Fighting Vehicle, according to the team's leader, Brig. Gen. Ross Coffman. The OMFV is meant to “provide options to commanders in combat, so it's a decision to, manned or unmanned, gain contact with the enemy, and that can be visual or through firepower, and it actually provides options to commanders so that they can use the best way to accomplish their mission,” Coffman said in an interview with Defense News shortly before the Association of the United States Army's annual meeting. The Next-Generation Combat Vehicle Cross-Functional Team — established as part of the Army's new Futures Command — tackles the service's second highest priority out of six major lines of effort that are intended to fully modernize the force by 2028. The CFT has had many conversations with industry to determine what's possible. The team has laid out what it thinks will be the requirements for the vehicle, Coffman said, including aspects like an optionally manned capability, loading it on a C-17 aircraft, protection elements and lethality. Even though the Army plans to rapidly prototype and procure the OMFV, Coffman said the team will continue to roll new technologies in through constant experimentation, in parallel with OMFV procurement, so that the first OMFV that comes out and gets fielded is constantly improved. The Army will roll those improvements into manufacturing “so that we can always maintain the current technology on these vehicles,” he said. The Army is requesting that designs have lots of room for upgrades and to add in new technology. "We know technology will continue to move at the pace it is today or faster, and it is going to allow us to have enough physical space and computing power as well as propulsion power that, if we want to add things to these vehicles, we have the ability to build them [to be] the best they can be,” Coffman said. Jumping right in, the service plans to release a request for proposals, not just a draft, by the end of the year, Coffman said. It is anticipated that the proposals will be due in May next year, and then the Army will downselect to two competitors who will build 14 prototypes in an engineering and manufacturing development phase in the first quarter of fiscal 2020, according to industry sources. Coffman said he hoped to cast a wide net with industry, including looking to partners around the world for solutions. “We want them to bring us their best, and we will evaluate and downselect to some number and do a procurement contract at the end of the final evaluation,” he said. To accommodate for the OMFV effort and the other lines of development within the CFT's portfolio, the Army has downgraded its prototype activity within the Army's Tank Automotive Research, Development and Engineering Center. A year ago, the Army had kicked off a major prototyping effort to develop what the service was calling its NGCV by awarding an industry team a contract to build two demonstrators by fiscal year 2022. The Army awarded a seven-year, $700 million contract to a team consisting of SAIC — the team lead — as well as Lockheed Martin, Moog Inc., GS Engineering Inc., Hodges Transportation Inc. and Roush Industries. Jim Scanlon, senior vice president and general manager of SAIC's Defense Systems Group, told Defense News in a recent interview that while the initial plan was to build prototypes, the strategy has evolved. Now, the team is working on sub-system experimentation for TARDEC using Bradley assets, to test capabilities such as mobility systems and manned-unmanned teaming. SAIC, according to Scanlon, sees the Mobile Protected Firepower solution it is hoping to prototype for the Army as possessing technological capabilities that will serve as “hooks” — or a pathway — to fulfilling OMFV requirements. Other companies are likely to emerge with offerings for OMFV, including General Dynamics Land Systems, AM General and BAE Systems. BAE Systems brought its CV90 fighting vehicle, developed for the Swedish army, to AUSA. The Netherlands, Finland and Denmark are also customers of the vehicle. According to BAE, it brought the CV90 to the show as a starting point to discuss possible options for the NGCV program. Raytheon and Rheinmetall announced at the AUSA conference Oct. 8 that they are partnering to provide Rheinmetall's Lynx combat vehicle as its submission to the impending OMFV competition. https://www.defensenews.com/digital-show-dailies/ausa/2018/10/08/replacing-the-bradley-is-the-top-priority-for-the-armys-next-gen-combat-vehicle-modernization-team

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