GA-ASI and SENER Aeroespacial Team to Develop New NATO Pod for MQ-9

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  10 octobre 2019 | International, Naval

  Lockheed Martin-Led Team Begins Construction On Navy's Littoral Combat Ship, The Future USS Nantucket

  MARINETTE, Wis., Oct. 9, 2019 /PRNewswire/ -- Lockheed Martin (NYSE: LMT) and Fincantieri Marinette Marine marked the beginning of construction on Littoral Combat Ship (LCS) 27, the future USS Nantucket, with a ceremony in Marinette. As part of a ship-building tradition dating back centuries, a shipyard worker welded the initials of Polly Spencer, USS Nantucket ship sponsor and wife of U.S. Secretary of the Navy Richard Spencer, into the ship's keel plate. This plate will be affixed to the ship and travel with Nantucket throughout its commissioned life. "The USS Nantucket will confront many complex challenges," said Richard V. Spencer, the U.S. Secretary of the Navy. "It will confront humanitarian relief all the way to great power competition, drawing on the strength of every weld, every rivet applied by the great people here." Unique among combat ships, the focused-mission LCS is designed to support mine countermeasures, anti-submarine and surface warfare missions today and is easily adapted to serve future and evolving missions tomorrow. The Freedom-variant LCS is: Flexible — Forty percent of the hull is easily reconfigurable, able to integrate Longbow Hellfire Missiles, 30 mm guns, and manned and unmanned vehicles designed to meet today's and tomorrow's missions. Lethal — LCS is standard equipped with Rolling Airframe Missiles (RAM) and a Mark 110 gun, capable of firing 220 rounds per minute. Fast — LCS is capable of speeds in excess of 40 knots. Automated — LCS has the most efficient staffing of any combat ship. "LCS' built-in flexibility makes it unlike any other Navy ship in the water today," said Joe DePietro, vice president and general manager of Small Combatants and Ship Systems. "LCS can serve a multitude of missions to include surface, anti-submarine and mine countermeasure missions by quickly integrating mission equipment and deploying manned and unmanned aerial, surface or sub-surface vehicles." LCS 27 is the first Navy ship to be named after Nantucket, Massachusetts in more than 150 years. Nantucket has a deep connection to sailing and maritime traditions, serving as a whaling hub in the 1800s and as the home of generations of American sailors since the town's beginning. The previous USS Nantucket, the first to be named after the island, was commissioned in 1862 to serve during the American Civil War. "I have been given a very special honor in being the sponsor of the future USS Nantucket. I am happy she is being built here in Marinette, Wisconsin, which has an impressive history of shipbuilding," said Polly Spencer, LCS 27 sponsor. "Thank you to all the talented people who are bringing this ship to life... it is going to be an amazing journey that I am thrilled to be on." LCS 27 will be the 14th Freedom-variant LCS and will join a class of more than 30 ships. It is one of six ships in various stages of construction and test at the Fincantieri Marinette Marine shipyard. "We are very excited to begin construction of the future USS Nantucket," said Jan Allman, CEO of Fincantieri Marinette Marine. "Our men and women are proud to put their efforts into giving the Navy versatile ships to keep our country and its interests safe." Multimedia assets are available here: Social media video: https://vimeo.com/365396145 B-roll: https://vimeo.com/365406413 Speaker remarks: https://vimeo.com/365402844 Photos: https://www.flickr.com/photos/143371902@N04/albums/72157711268036447 For additional information, visit our website: www.lockheedmartin.com/lcs. About Lockheed Martin Headquartered in Bethesda, Maryland, Lockheed Martin is a global security and aerospace company that employs approximately 105,000 people worldwide and is principally engaged in the research, design, development, manufacture, integration and sustainment of advanced technology systems, products and services. About Fincantieri Marinette Marine Fincantieri is the leading western shipbuilder with a rich history dating back more than 230 years, and a track record of building more than 7,000 ships. Fincantieri Marine Group is the American subsidiary of Fincantieri, and operates three Great Lakes Shipyards: Fincantieri Marinette Marine, Fincantieri Bay Shipbuilding, and Fincantieri ACE Marine. Fincantieri Marine Group's more than 2,100 steelworkers, craftsman, engineers and technicians in the United States specialize in the design, construction and maintenance of merchant ships and government vessels, including for the United States Navy and Coast Guard. About Gibbs & Cox Gibbs & Cox, the nation's leading independent maritime solutions firm specializing in naval architecture, marine engineering and design, is headquartered in Arlington, Virginia. The company, founded in 1929, has provided designs for nearly 80 percent of the current U.S. Navy surface combatant fleet; approaching 7,000 naval and commercial ships have been built to Gibbs & Cox designs. SOURCE Lockheed Martin https://news.lockheedmartin.com/2019-10-09-Lockheed-Martin-led-Team-Begins-Construction-on-Navys-Littoral-Combat-Ship-the-future-USS-Nantucket

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  10 juillet 2019 | International, Aérospatial, Autre défense

  Here’s the No. 1 rule for US Air Force’s new advanced battle management system

  By: Valerie Insinna LE BOURGET, France, and WASHINGTON — The U.S. Air Force has started work on a data architecture for its Advanced Battle Management System, the family of platforms that will eventually replace the E-8C JSTARS surveillance planes. But the “biblical” rule for the program, according to the service's acquisition executive Will Roper, is that “we don't start talking platforms until the end,” he told Defense News at the Paris Air Show in June. “It is so easy to start talking about satellites and airplanes and forget what ABMS is going to have to uniquely champion, which is the data architecture that will connect them,” Roper explained. “I'm actually glad we don't have big money this year because we can't go build a drone or a satellite, so we've got to focus on the part that's less sexy, which is that data architecture,” he said. “We're going to have to do software development at multiple levels of classification and do it securely. All of those are things that are hard to get people energized about, but they're going to be the make-or-break [undertakings] for this program.” Some initial work has begun on identifying the requirements for ABMS data architecture. The service in March named Preston Dunlap, a national security analysis executive at Johns Hopkins University Applied Physics Laboratory, as the program's “chief architect.” Dunlap will be responsible for developing the requirements for ABMS and ensuring they are met throughout the menu of systems that will comprise it. The Air Force Warfighter Integration Center, or AFWIC — the service's planning cell for future technologies and concepts of operation — provided feedback to Dunlap about how ABMS should work, Roper said. The Air Force is still deliberating what ABMS will look like in its final form, although officials have said it will include a mix of traditional manned aircraft, drones, space-based technologies and data links. The effort was devised as an alternative to a replacement for the E-8C Joint Surveillance Target Attack Radar System. While the service first considered a traditional recapitalization program where it would buy new JSTARS aircraft equipped with more sophisticated radars, leaders ultimately backed the more ambitious ABMS proposal, believing it to be a more survivable capability. But defense companies are hungry for more information about the platforms that will comprise ABMS, seeing the opportunity to develop new systems or upgrade legacy ones as a major potential moneymaker. Once the service has defined an ABMS data architecture — which Roper believes will occur before the fiscal 2021 budget is released — it will need to form requirements for the data that will run through and populate it as well as the artificial intelligence that automatically sorts important information and passes it to users. “Maybe one sensor needs to be able to fill a gap that others are creating,” he said. “We're going to have to look at requirements at a systems level and tell satellites that you need to be able to provide this level of data at this refresh rate. UAVs, you need to be able to do this rate and so on and so forth. Once we do that, then we'll be in the traditional part of the acquisition, which will be building those satellites, building those UAVs.” The Air Force intends to conduct yearly demonstrations throughout this process, the first of which will involve “ad hoc mesh networking,” which will allow platforms to automatically begin working together and sharing information without human interference. By FY21, full-scale prototyping could start, he said. In the commercial sector, where devices can be seamlessly linked and monitored over the internet, this concept is known as the internet of things. But that construct — where companies build technologies from the get-go with open software — is difficult to replicate in the defense world, where firms must meet strict security standards and are protective of sharing intellectual property that could give competitors an edge. “Openness in the internet of things makes sense because you can monetize the data,” Roper said. “That's not going to exist for us, so we're going to have to have a contracting incentive that replicates it. The best theory we have right now is some kind of royalty scheme that the more open you are and the more adaptation we do on top of your system, the more you benefit from it.” The service wants to hold a series of industry days to see whether such a construct would be appealing to defense companies, and how to structure it so that it will be fair and profitable. One unanswered is how to incentivize and compensate defense firms that build in new software capability. “If you create the system that allows us to put 100 apps on top of it, you benefit differently than if we can only put one. But the details are going to be difficult because maybe that one app is super important,” Roper said. “But if we can't replicate profit and cash flow on which their quarterlies depend, then they're going to have to go back to the old model of saying they are for open [architecture] but secretly giving you closed.” https://www.defensenews.com/digital-show-dailies/paris-air-show/2019/07/09/rule-no1-for-air-forces-new-advanced-battle-management-system-we-dont-start-talking-platforms-until-the-end/

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  13 mars 2020 | International, Aérospatial

  New Production Contracts for UH-60s, HH-60s, and P-8s

  by David Donald Sikorsky Aircraft received a contract modification on March 10 worth $525.3 million for 40 UH-60M Black Hawks. The batch comprises 38 being procured for the U.S. Army as Lot 44 of the service's MY IX multi-year procurement program. The other two represent the exercising of an option for two Foreign Military Sales aircraft for an unidentified customer. Managed by the Army Contracting Command at Redstone Arsenal, Alabama, the work is due to be performed by the Lockheed Martin-owned company by the end of June 2022. The five-year MY IX program, the ninth such order covering H-60 helicopters for the Army, was awarded to Sikorsky in June 2017. Specifying 257 UH-60 medium-lift helicopters and HH-60M medevac versions, the initial deal was worth $3.8 billion, with options for up to 103 additional helicopters that would ultimately bring the value to $5.2 billion. At the end of February, the H-60 production line received another boost when the Department of Defense ordered 12 more HH-60W combat rescue helicopters for the U.S. Air Force. The Lot 2 batch is the second low-rate initial production tranche to be ordered, with a value of more than $500 million. The program of record covers 113 HH-60Ws to replace the aging HH-60G Pave Hawk. Initially known as the “Rescue Hawk,” the HH-60W has now received its official Air Force name of Jolly Green II. Secretary of the Air Force Barbara Barrett announced the name at the Air Force Association (AFA) Air Warfare Symposium held in Orlando in late February. At the time of the order, Sikorsky had flown seven HH-60Ws, of which two are with the Air Force trials unit at Duke Field, Eglin AFB, Florida. The initial goal is to meet Required Assets Available (RAA) criteria by the end of 2020. In another DOD deal, announced on March 6, Boeing was awarded an $800 million contract by Naval Air Systems Command to procure long-lead materials associated with Lot 11 production of P-8A Poseidon maritime patrol aircraft. This batch comprises 18 aircraft, of which eight are for the U.S. Navy. The remainder comprises six aircraft for the Republic of Korea Navy (ROKN) and four for the Royal New Zealand Air Force (RNZAF). South Korea decided in June 2018 to order six Poseidons as a replacement for the Lockheed P-3CK Orions that serve with the ROKN's 615 Squadron at Jeju air base, while New Zealand announced its intention to buy the P-8 in the following month. In RNZAF service the P-8 is expected to serve with No. 5 Squadron at Whenuapai, which currently flies P-3K Orions. Both nations placed their orders for P-8As in March 2019. https://www.ainonline.com/aviation-news/defense/2020-03-12/new-production-contracts-uh-60s-hh-60s-and-p-8s