Contract Awards by US Department of Defense - October 15, 2018

On the same subject

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  September 13, 2019 | International, Land

  Iveco Defence Vehicles awarded contract to deliver a new generation of medium multirole protected vehicles to Dutch Armed Forces

  Bolzano, September 12, 2019 - Iveco Defence Vehicles, a company of CNH Industrial N.V. (NYSE: CNHI /MI: CNHI), announced today that it has been awarded a contract by the Dutch Ministry of Defence to provide 1275 medium multirole protected vehicles denominated “12kN”. The acquisition is part of the Defence-wide Replacement Programme of Wheeled Vehicles (DVOW - Defensiebrede Vervanging Operationele Wielvoertuigen), with deliveries from 2022 through 2026. The Iveco Defence Vehicles' MTV – Medium Tactical Vehicle, is designed to combine high tactical 4x4 mobility, optimal off-road performance and high crew protection, together with an excellent payload capability. Outstanding modularity and system integration capabilities are guaranteed across all range variants such as hard top, soft top, pick up, casualty transport and personnel transport, in order to support all different Military users, from Army to Marines, Navy, Air Force, Special Operational Units and Military Police. High reliability, ease of maintenance and low through life cycle costs were core requirements during the design of MTV, guiding the choice of the main assemblies towards components with proven performance and reliability over many millions kilometers in the most diversified and demanding environmental conditions. Over the years, Iveco Defence Vehicles has delivered many vehicles to the Dutch Army from its wide commercial and military product range such as the Iveco Stralis 6x2 long haulage lorries, the Trakker 8x8 for the Army's Fire Department and the EuroCargo 4x4 delivered to the Dutch Marines for the Caribbean territories. This award represents an important milestone in the consolidation of the strategic partnership between the Dutch MoD and Iveco Defence Vehicles, confirming once again the leadership of the company in the multirole vehicle segment for defense and homeland security missions. Iveco Defence Vehicles is a brand of CNH Industrial N.V., a World leader in Capital Goods listed on the New York Stock Exchange (NYSE: CNHI) and on the Mercato Telematico Azionario of the Borsa Italiana (MI: CNHI). Iveco Defence Vehicles is dedicated to delivering innovative automotive and protection solutions to meet the needs of military customers worldwide. The company manufactures specialist logistic, protected and armoured vehicles in its facility in Bolzano in Northern Italy, as well as marketing Iveco's full commercial range, adapted as necessary to meet the demands of the military user. In consequence, Iveco Defence Vehicles has a full range of vehicles to meet a broad spectrum of defence applications. CNH Industrial N.V. (NYSE: CNHI /MI: CNHI) is a global leader in the capital goods sector with established industrial experience, a wide range of products and a worldwide presence. Each of the individual brands belonging to the Company is a major international force in its specific industrial sector: Case IH, New Holland Agriculture and Steyr for tractors and agricultural machinery; Case and New Holland Construction for earth moving equipment; Iveco for commercial vehicles; Iveco Bus and Heuliez Bus for buses and coaches; Iveco Astra for quarry and construction vehicles; Magirus for firefighting vehicles; Iveco Defence Vehicles for defence and civil protection; and FPT Industrial for engines and transmissions. More information can be found on the corporate website: www.cnhindustrial.com For more information contact: Iveco DV Press Office Elisa Faccin External Relations & Communication Manager Phone +39 0471 905 369 Mobile +39 366 7556840 elisa.faccin@cnhind.com https://www.epicos.com/article/481254/iveco-defence-vehicles-awarded-contract-deliver-new-generation-medium-multirole

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  September 10, 2019 | International, Aerospace, Naval, Land, C4ISR, Security

  DSEI: US Navy makes a major breakthrough in autonomous weaponry

  By: David B. Larter LONDON — The U.S. Navy has achieved a major milestone in its efforts to autonomously combat one of the most persistent threats it faces, the service's deputy head of the Office of the Chief of Naval Operations' mine warfare office said Monday. The Navy successfully demonstrated what's known as single-sortie mine hunting, which sends out an autonomous boat to sweep for mines with a sonar system, detect a mine-like object, classify it and then deploy another system that destroys the mine, according to Stephen Olson. It's a significant achievement in the yearslong effort to “get the man out of the minefield” by deploying robots to perform a job traditionally performed by manned minesweepers and highly trained divers. Beyond the safety benefits, it also quickens the process. The successful test opens up the possibility of having a small cadre of human operators who can oversee whole packs of robots as they sweep minefields on their own. “That single-sortied, detect-to-engage was a great example of something that would represent supervisory [control of unmanned systems],” Olson said. “It was a small group [of people] who oversaw the entire effort: Multiple systems were in operation together, working together and cueing each other.” When reached for comment on the successful test, the Navy would not divulge further details. “Currently the Navy cannot disclose any further details of the test beyond what Mr. Olson described,” Navy spokeswoman Lt. Brittany Stephens said. The systems under development in the pursuit of single-sortie mine hunting are Textron's Common Unmanned Surface Vehicle, or CUSV, about the size of a bass boat, which deploys Raytheon's AQS-20 sonar system to detect the mines. After an operator authorizes an engagement, the Barracuda Expendable Mine Neutralizer is deployed to autonomously reacquire and destroy the mine. “If you are familiar with mine warfare, it's painfully slow,” Olson said to an audience at the DSEI conference in London. “When leadership says, ‘We need to clear a minefield,' and you say, ‘How long do I have?,' they look at their watch when they should pull out a calendar. I'm going to tell them it is going to take weeks, and they're going to say: ‘I need it done now.' " In May, a Raytheon executive told Defense News that the company was closing in on demonstrating the capability. “All three of these pieces are maturing right around the same time,” Randy Brandenburg, a Raytheon business development executive with its Seapower Capability Systems division, said at the time. “We're working hard to put this together and we'll be demonstrating some of this ... this summer.” ‘Huge vulnerability' The Navy is also moving in on the ability to deliver an effective counter-mine mission package to the littoral combat ship, albeit more than a decade late. The mine-hunting mission package for LCS was supposed to achieve its initial operational capability declaration in 2008. But perhaps more importantly, the service may finally have an effective solution to combating a threat that has bedeviled it for years: cheap mines. “In the past it has been mostly divers — we'd sent [explosive ordnance disposal teams] out to go neutralize mines by putting some kind of charge on it,” said Bryan Clark, a retired submarine officer and analyst with the Center for Strategic and Budgetary Assessments. “It's a hugely complicated, multistage operation with a lot of people involved. So going to single-sortie mine hunting, you are really saving a lot of time, certainly by at least a third the time it takes to clear an area that has mines in it. “You can now transition to a purely unmanned mine-clearance operation where I have a ship that has the AQS-20 getting towed behind the CUSV, searches for [a] mine and the CUSV can send out a mine-neutralization torpedo.” The breakthrough with single-sortie will mean the Navy is only limited by how many robots it can buy to do the job. “It's big not just because it gets people out of the minefield but because it's scalable now,” Clark said. “Once you take the people out the minefield, now you can search as big a minefield as I have unmanned vehicles, whereas in the past you were limited by how many minesweepers I have and how many humans I have to operate them. Scalability was constrained.” Ultimately, getting this mission right will prove that autonomous systems can have an impact on war fighting, Clark added. “This is the mission that the Navy absolutely had to get autonomous systems to go do,” he said. “It's crazy to have humans go out and remove mines. It's dangerous, it's not scalable, it takes forever — it's just a huge vulnerability that the Navy [has] that could be exploited by even the most primitive opponents. https://www.defensenews.com/digital-show-dailies/dsei/2019/09/10/the-us-navy-just-had-a-major-breakthrough-with-autonomous-weapons/

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  July 6, 2020 | International, Aerospace

  US Air Force delays timeline for testing a laser on a fighter jet

  By: Valerie Insinna WASHINGTON — The U.S. Air Force's long-planned test of an airborne laser weapon aboard a fighter jet has been delayed until 2023 due to technical challenges and complications spurred by the ongoing coronavirus pandemic, its program head said. The Air Force's Self-Protect High Energy Laser Demonstrator program, or SHiELD, had originally planned to conduct its first flight demonstration in 2021, but the test has been pushed two years back, said Jeff Heggemeier, SHiELD program manager for the Air Force Research Laboratory. “This is a really complex technology to try to integrate into that flight environment, and that's ultimately what we're trying to do with this program, is demonstrate that laser technology is mature enough to be able to integrate onto that airborne platform,” he told Defense News in a June 10 interview. “But even things like COVID, and COVID shutting down the economy. That has impacts.” Beyond that, the future of using laser weapons aboard fighter aircraft is even more unclear. The goal of SHiELD was to give combat jets a way to counter missiles shot by an enemy aircraft or by air defense systems on the ground. But in May, Mike Griffin, the Pentagon's undersecretary of defense for research and engineering, noted that he was “extremely skeptical” that an airborne laser could be used for missile defense. Asked what that meant for SHiELD, Air Force acquisition czar Will Roper acknowledged that the service is rethinking how it could best use directed-energy technologies. Perhaps the most optimal use for SHiELD wasn't onboard a fighter, he said. “What I've told that team is, let's have a dialogue,” Roper said during a June 9 event hosted by the Mitchell Institute for Aerospace Studies. “Let's understand the different power levels and what they should correspond to, and let's not make the highest power level that we can dream up and the mission that's the sexiest be the thing that drives us.” “What I expect to get laser weapons to the goal line has been the humble, but important and very worrisome small drone threat. They continue to show up, they're difficult to attribute — we don't know who is sending them to our installations and tests and things of that nature, and we can't afford to shoot missiles at them,” he added. “So this is a perfect threat to make laser weapons real, and once they're real, we'll do what the military does. We'll look to scale the power.” Heggemeier said there are many ways the Air Force could spin off laser technologies developed by the SHiELD program, but it's critical the service continue with development so it can gauge the maturity and usefulness of the capabilities. “I think it's important for us to first remember what the whole point of SHiELD is. The whole point of SHiELD is not an acquisition program where we're turning out hundreds or tens of these laser systems for operational use. What we're trying to do with SHiELD is exactly answer those questions of: ‘Is laser technology mature enough to go on an airborne platform? Have we solved enough of those technical challenges that this is now a feasible thing?' Because there is that concern.” He also drew a distinction between the tactical, self-defense capability a SHiELD laser would give combat aircraft versus a more powerful laser capable of intercepting highly-advanced ballistic missiles, as the Missile Defense Agency has proposed. “You're not talking about these really, really long ranges. You're talking about a shorter range and different targets just to protect yourself or your wingman,” Heggemeier said. “Missile defense can mean a lot of things. Some of those missile defense missions are very, very hard, and some of them aren't quite so hard.” For now, at least, the Air Force's investment in directed energy remains stable. The service's budget lays out cash for high-energy lasers in multiple funding lines. For fiscal 2021, it requested $15.1 million for basic research and $45.1 million for applied research for high-energy laser technology, as well as another $13 million for high-power, solid-state laser technology. In FY20, the service received $14.8 million for basic research and $48.2 million for applied research for laser technologies. SHiELD is comprised of three elements: the laser itself, which is being developed by Lockheed Martin; the beam control system made by Northrop Grumman; and the pod that encases the weapons system, from Boeing. Heggemeier said the pod is under construction, with integration of the laser and beam control system planned to start next year. “A lot of the challenge is trying to get all of this stuff into this small pod. If you look at other lasers that are fairly mature, we have other laser systems that some other contractors have built that are ready to be deployed. But these are ground-based systems, and they are much, much more mature,” he said. In April 2019, the Air Force Research Lab conducted a ground test with a surrogate laser system — the Demonstrator Laser Weapon System, or DLWS, now in use by the Army. The demonstration involved the successful downing of several air-to-air missiles. “It turns out the DLWS system, when you take everything into account, is a really good surrogate for the laser power on SHiELD,” Heggemeier said. Because both SHiELD and DLWS generate similar amounts of energy on target — in SHiELD's case, Heggemeier would only say that it amounts to “tens of kilowatts” — the surrogate test gave the lab a good idea how the laser physically affects a target. In 2019, the team conducted a flight test of a pod with the same outer mold line as the one under development by Boeing. The pod was mounted to an aircraft — Heggemeier declined to specify the model — and flown around Eglin Air Force Base, Florida, to help measure how vibrations, the force of gravity and other environmental factors might influence the performance of the weapon. Air Force Magazine reported in 2019 that aerial demonstrations of SHiELD would occur onboard an F-15 fighter jet. https://www.defensenews.com/air/2020/06/30/us-air-force-delays-timeline-for-testing-a-laser-on-a-fighter-jet/