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January 21, 2020 - Saab started assembly production on January 10, 2020 of its section of the T-7A aircraft, the advanced trainer developed and produced together with Boeing for the United States Air Force. Saab is responsible for the development and production of the aft fuselage section for the advanced trainer, with seven aft units being produced in Linköping, Sweden for final assembly at Boeing's U.S. facility in St. Louis, Missouri. “In little over a year since we signed the EMD contract, we are starting production of our part of the T-7A jet. This achievement is possible due to the great collaboration between Saab and Boeing, and it is an honour to be part of this programme for the United States Air Force,” says Jonas Hjelm, head of Saab business area Aeronautics. The work is being performed in Linkoping, Sweden, after which future production of Saab's part for the T-7A will be moved to our new U.S. site in West Lafayette, Indiana. The Saab facility in West Lafayette is an important part of Saab's growth strategy in the United States, creating strong organic capabilities for the development, manufacturing and sales of its products. Boeing is the designated prime contractor for the T-7A advanced pilot training system acquisition by the U.S. Air Force. Saab and Boeing developed the aircraft with Saab as a risk-sharing partner. Saab received the EMD order from Boeing, on September 18, 2018. For further information, please contact: Saab Press Centre, +46 (0)734 180 018, presscentre@saabgroup.com www.saabgroup.com www.saabgroup.com/YouTube Follow us on twitter: @saab Saab serves the global market with world-leading products, services and solutions within military defence and civil security. Saab has operations and employees on all continents around the world. Through innovative, collaborative and pragmatic thinking, Saab develops, adopts and improves new technology to meet customers' changing needs. View source version on Saab: https://saabgroup.com/media/news-press/news/2020-01/saab-starts-production-in-support-of-u.s.-air-force-t-7a-programme/

White Sands Missile Range, January 21, 2020 – Two U.S. Air Force F-35s were integrated with the U.S. Army Integrated Air and Missile Defense Battle Command System (IBCS), providing an airborne sensor capability to successfully detect, track and intercept near simultaneous air-breathing threats in a test at White Sands Missile Range, New Mexico. The December 2019 test marked the first time F-35s were used as sensors during an IBCS live fire test against multiple airborne targets. Linking F-35s to IBCS via the Multifunction Advanced Data Link (MADL) provided enhanced situational awareness and weapons-quality track data to engage airborne targets. The proof of concept demonstration used experimental equipment developed by Lockheed Martin, including the Harvest Lightning Ground Station and IBCS adaptation kit (A-Kit). “The F-35's advanced sensors and connectivity enable it to gather, analyze and seamlessly share critical information with the joint fighting force to lead the multi-domain battlespace,” said Greg Ulmer, Lockheed Martin vice president and general manager of the F-35 program. “This test validated the F-35's capability to serve as an airborne sensor and extend the range of critical Integrated Air and Missile Defense interceptors.” “This test represents a major milestone for multi-domain operations by leveraging airborne assets to detect and track threats that can then be countered with ground-based effectors. This demonstrates a tremendous capability to defeat threats that are terrain masked or beyond ground-based sensor detection capabilities due to terrain and curvature of the earth,” said Jay Pitman, vice president, Lower Tier Integrated Air and Missile Defense at Lockheed Martin Missiles and Fire Control. This test is the latest in a series of successful activities to demonstrate the F-35's role as the keystone of the joint force. Lockheed Martin is evolving technologies that connect, share and learn to create a holistic network that provides unprecedented situational awareness across the battlespace and enables Multi-Domain Operations. For additional information, visit our website. 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. View source version on Lockheed Martin: https://news.lockheedmartin.com/2020-01-21-U-S-Army-and-Air-Force-Team-up-for-Multi-Domain-Operations

By: Sebastian Sprenger COLOGNE, Germany — The losing bidder for Germany's MKS 180 large-frigate program has filed a protest against the government's pick of Dutch shipyard Damen for the $6.7 billion job. German Naval Yards, based in Kiel, Germany, on Monday said it had “serious doubts about the legality of the decision” and would “exhaust all legal possibilities at our disposal” to have the decision overturned. The Defence Ministry announced Jan. 13 it selected Damen to build an initial four copies of the new multipurpose combat ships. The pick capped a source-selection process that had become controversial because the government decided to compete the project throughout the European Union. The strategy followed the bloc's principle of a unified market, but it left the domestic shipbuilding lobby miffed. The protest by German Naval Yards and its bid partner ThyssenKrupp Marine Systems kicks off a dispute process that begins with the Defence Ministry reviewing the complaint and then, if it remains unresolved, could wind its way through the German court system. There is no telling how long the process will take — some protests get resolved within weeks, but the process can take a year or longer. The Defence Ministry is expected to offer an indication later this month on whether its attorneys believe the Damen pick can withstand legal scrutiny. Damen has said it wants to build the ships at the shipyards of its German bid partner Lürssen, vowing to invest 80 percent of the contract's value in Germany. The protest comes at a time when Berlin is adopting a new policy that grants an exception to the EU competition mandate when national security is at stake. Specifically, the construction of surface warships would be designated as a “key technology area” so worthy of protection that future programs would be automatically awarded to German manufacturers. For that to be the case, however, two political initiatives have yet to play out: The German parliament must approve a revision of national source-selection rules from October 2019, which formally enable EU acquisition exceptions on national security grounds. In addition, the Cabinet has to greenlight a draft strategy document on nurturing domestic security- and defense-related industries, currently in interagency review, that confers the rank of “key technology area” to naval surface combatants. The strategy document, overseen by the Federal Ministry for Economic Affairs and Energy, is expected to be ready for Cabinet consideration within weeks, as Defense News reported last week. Legal experts said the “key technology” debate has no immediate bearing on the German Naval Yards protest. At the same time, it is possible that the complaint's resolution, whichever way it goes, will come at a time when a domestic award preference for similar contracts is already in effect. https://www.defensenews.com/global/europe/2020/01/21/industry-protest-ensnares-germanys-multibillion-dollar-combat-ship/

Alors que Dassault Aviation profite à plein de ses contrats à l'export dans le militaire, il fait grise mine dans le civil. Comme prévu, le groupe a livré 26 Rafale en 2019, contre 12 en 2018. Mais il n'a pas atteint son objectif dans le civil, avec seulement 40 avions d'affaires Falcon livrés, contre 41 en 2018, soit cinq appareils de moins qu'attendu. Seule consolation : avec également 40 Falcon commandés l'an dernier, Dassault parvient à stabiliser son carnet de commandes dans le civil (53 appareils). Entre un marché de l'aviation d'affaires chahuté et disputé et l'annulation du Falcon 5X en raison des difficultés rencontrées par Safran sur le moteur Silvercrest, le risque de pertes de parts de marché est bien réel. Mais l'avionneur peut se féliciter de son modèle dual : malgré sa décélération persistante dans le civil, son chiffre d'affaires en 2019 devrait être très supérieur à celui de 2018, à 5,1 milliards d'euros. En outre, Dassault pourrait dévoiler cette année un nouveau Falcon... https://www.usinenouvelle.com/article/le-falcon-ne-fait-plus-les-affaires-de-dassault.N918869

Whether technical failure or simply unrealistic expectations, a new report published in the U.K. indicates that the DJI Matrice Series drones fall during heavy rains. As reported by CNN, the U.K.'s Air Accidents Investigation Branch (AAIB) found that 16 DJI Matrice 200 series drones crashed due to “technical failures” while flying in the rain. This month's AAIB bulletin reports on one specific incident that took place in a flight over a sporting event: The DJI Matrice 210 small unmanned aircraft was being operated commercially to record video footage of an outdoor athletics event. The pilot started to position the aircraft back towards the landing site due to an increase in the rainfall. The pilot then saw the aircraft“wobble” slightly and as it neared the landing site it flipped over before descending rapidly to the ground from a height of about 3 m (10 ft). No one was injured. During the accident flightthe aircraft had been operating at heights of up to about 30 m (100 ft) near to, and above people on the ground. This investigation reviewed other similar accidents and the risk of injury to people on the ground. It's important to note that the professional pilot handled the situation correctly and according to protocol – and as a result, his aircraft was damaged but there were no injuries or issues with the spectators or participants in the event. The event began in light rain, but, as can happen in the U.K., a drizzle became a downpour. In a statement to CNN, DJI reiterated that safety is a priority: “The DJI Matrice 200 Series has been independently certified by a third party that it has an IP43 rating,” it said. “This certifies that ‘water falling as a spray at any angle up to 60° from the vertical shall have no harmful effect'. However, the M200 is not suitable, and should not, be operated in conditions or precipitation greater than those stated by the certification. “All users of M200 series drones should refer to our current maintenance guidelines and safety information here to help manage their aircraft and maximise flight safety.” The problem may not be as much about a “failure,” which implies the unexpected, as it is one of unrealistic expectations. Much of the advantage of an sUAS is in its small form factor. While the technical capabilities of drones have increased over the last several years, and commercial drones can now maintain stability in a wider range of environments, they aren't airplanes and they aren't designed to be flown in all weather conditions – including a downpour. https://dronelife.com/2020/01/17/technical-failure-or-unrealistic-expectations-report-shows-u-k-police-drones-fall-in-heavy-rains/

The 576th Aircraft Maintenance Squadron is leveraging the robotic media blasting technology for the first time to remove paint from the A-10 aircraft at Hill Air Force Base (AFB) in the US. With the use of the new robotic technology, the squadron is expanding its capacity by adding capability. New-generation robots are used to strip paint from A-10 Thunderbolt II aircraft that arrive at Hill AFB for depot overhaul and maintenance. The latest process is expected to reduce man-hours and increase safety by removing employees from the blasting atmosphere, resulting in time and costs savings. 576th Aircraft Maintenance Squadron director Tim Randolph said: “There are going to be across-the-board improvements, including a dramatic reduction in exposure to a Hexavalent Chromium dust environment. “Savings will also be seen with reduced operating time and less power consumption, as well as reduced costs in material. We really haven't found a downside to this system.” The new paint removal process is carried out by two robots, which each have four hose attachments that move independently along both sides of the aircraft. 576th Aircraft Maintenance Squadron Corrosion Control Flight chief James Gill said: “Compared to the manual paint stripping method, the robots use half the amount of blast media at half of the air pressure, while removing an extremely precise thickness, uniformly, across the entire aircraft surface. “This translates into a process that is less stressful on the aircraft skins and saves money in media cost, while creating only half the waste stream.” A new laser burn process is also being tested at the AFB on F-16 aircraft. The squadron expects the application of the process to the A-10s going forward. Combined together, the three processes are capable of reducing the total time an aircraft spends in depot maintenance. Last August, Boeing secured a potential $999m 11-year contract to deliver sustainment work on the USAF A-10 Thunderbolt II aircraft. https://www.airforce-technology.com/news/usaf-base-robotic-technology/

CAE has announced the appointment of Todd Probert as group president, Defence and Security, effective Jan. 27, 2020. He will be based in Washington, D.C., and is succeeding Gene Colabatistto, who retired from CAE in December 2019. “I am very pleased to welcome Todd Probert to CAE's executive management team, as our new group president, Defence and Security. He is a proven strategic business leader with the right balance of technical, business and international experience in defence and technology,” said Marc Parent, CAE's president and chief executive officer. “Todd's competencies and background are very well aligned with CAE's emphasis on digital innovation and our long-term vision to be the training partner of choice. His ability to drive business growth and create strategic partnerships will bring significant value to our company and our defence customers.” Probert worked for Raytheon, the world's fourth largest defence company, over the past 10 years. Most recently, he was leading the Command, Control, Space and Intelligence business unit as part of Raytheon's Intelligence, Information and Services segment. In this role, he spearheaded Raytheon's use of commercial software development practices and artificial intelligence for military and intelligence community customers in addition to establishing strategic relationships with Silicon Valley companies. He previously served as the vice-president of Raytheon's Mission Support and Modernization product line where he steadily grew the business during his tenure. He has formed innovative partnerships with leading tech companies to transform the development timelines and delivery of capabilities to the U.S. Department of Defense in areas such as fully open architectures, artificial intelligence and cyber security. He also held the position of vice-president, Engineering and Technology, where he managed the engineering workforce for Raytheon's Intelligence, Information and Services portfolio. Before joining Raytheon, Probert worked for Honeywell Technology Solutions, Inc. (HTSI) in various functions such as strategy and business development, planning and operations, merger and acquisition activities, and he also served as HTSI's chief technology officer. Prior to that, he worked for ANSER, where he led the Space Technology division. In 2019, Probert was named by WashingtonExec as one of the Top 10 Department of Defense (DOD) Executives to Watch based on business accomplishments, impact on the defence community and vision for the future. He also received the 2019 Aviation Week Program Excellence Award in the OEM Sustainment category. Probert holds a master's degree in aeronautical and astronautical engineering from Purdue University, where he was named Outstanding Aerospace Engineer of the Year in 2017. He has a bachelor's degree in aerospace engineering from the University of Michigan. https://www.skiesmag.com/press-releases/cae-appoints-todd-probert-as-group-president-defence-and-security

The Nato military alliance has just received its first cutting-edge spy drones called Global Hawks. They'll help commanders on the ground identify potential threats to Nato members - with one single drone able to watch over a territory the size of Poland. BBC defence correspondent Jonathan Beale has been given an exclusive look at the new unmanned aircraft. https://www.bbc.com/news/av/technology-51156680/global-hawk-drones-a-look-at-nato-s-new-spy-tool

by Kris Osborn Key point: At this rate, the F-35 won't even see combat before its outmoded. It is also possible that the new 6th-generation fighter could use advanced, futuristic stealth technology able to enable newer, more capable air defenses. The air defenses of potential adversaries are increasingly using faster computing processing power and are better networked together, more digital, able to detect a wider range of frequencies and able to detect stealthy aircraft at farther distances. The Air Force has begun experimenting and conceptual planning for a 6th generation fighter aircraft to emerge in coming years as a technological step beyond the F-35, service leaders said. "We have started experimentation, developmental planning and technology investment," Lt. Gen. Arnold Bunch, Military Deputy, Office of the Assistant Secretary of the Air Force, Acquisition, told Scout Warrior in an interview. The new aircraft, engineered to succeed the 5th-generation F-35 Joint StrikeFighter and explode onto the scene by the mid 2030s, is now in the earliest stages of conceptual development with the Air Force and Navy. The two services are now working together on early conceptual discussions about the types of technologies and capabilities the aircraft will contain. While the Air Force has not yet identified a platform for the new aircraft. The Air Force characterizes the effort in terms of a future capability called Next-Gen Air Dominance. While Bunch did not elaborate on the specifics of ongoing early efforts, he did make reference to the Air Superiority 2030 Flight Plan which delineates some key elements of the service's strategy for a future platform. Fighter jets in 20-years may likely contain the next-generation of stealth technology, electronic warfare, sophisticated computer processing and algorithms, increased autonomy, hypersonic weapons and so-called "smart-skins" where sensors are built into the side of the aircraft itself. Some of these characteristics may have been on display more than a year ago when Northrop Grumman's SuperBowl AD revealed a flashy first look at its rendering of a new 6th-generation fighter jet. Northrop is one of a number of major defense industry manufacturers who will bid for a contract to build the new plane - when the time is right. While there are not many details available on this work, it is safe to assume Northrop is advancing concepts, technology and early design work toward this end. Boeing is also in the early phases of development of a 6th-gen design, according to a report in Defense News. The Navy's new aircraft will, at least in part, replace the existing inventory of F/A-18 Super Hornets which will start to retire by 2035, Navy officials said. The Navy vision for a future carrier air wing in 2040 and beyond is comprised of the carrier-launched variant of the Joint Strike Fighter, the F-35C, and legacy aircraft such as the EA-18G Growler electronic jamming aircraft. Also, around this time is when Navy planners envision its 6th generation aircraft to be ready, an aircraft which will likely be engineered for both manned and unmanned missions. Technologies are rapidly advancing in coatings, electromagnetic spectrum issues, artificial intelligence, maneuvering, superiority in sensing the battlespace, communications and data links, Navy leaders have said. Navy officials also add that the Navy is likely to develop new carrier-launched unmanned air vehicles in coming years as well. For instance, Northrop's historic X-47B demonstrator aircraft was the first unmanned system to successfully launch and land on the deck of an aircraft carrier. Analysts have speculated that as 6th generation developers seek to engineer a sixth-generation aircraft, they will likely explore a range of next-generation technologies such as maximum sensor connectivity, super cruise ability and an aircraft with electronically configured “smart skins.” Super cruise technology would enable the new fighter jet to cruise at supersonic speeds without needing afterburner, analysts have explained. As a result, super cruise brings a substantial tactical advantage because it allows for high-speed maneuvering without needing afterburner, therefore enable much longer on-location mission time. Such a scenario provides a time advantage as the aircraft would likely outlast a rival aircraft likely to run out of fuel earlier. The Air Force F-22 has a version of supercruise technology. Maximum connectivity would mean massively increased communications and sensor technology such as having an ability to achieve real-time connectivity with satellites, other aircraft and anything that could provide relevant battlefield information.The new aircraft might also seek to develop the ability to fire hypersonic weapons, however such a development would hinge upon successful progress with yet-to-be-proven technologies such as scramjets traveling at hypersonic speeds. Some tests of early renderings of this technology have been tested successfully and yet other attempts have failed. The Air Force Chief Scientist, Dr. Geoffrey Zacharias, has told Scout Warrior that the US anticipates having hypersonic weapons by the 2020s, hypersonic drones by the 2030s and recoverable hypersonic drone aircraft by the 2040s. There is little doubt that hypersonic technology, whether it be weaponry or propulsion, or both, will figure prominently into future aircraft designs. Smart aircraft skins would involve dispersing certain technologies or sensors across the fuselage and further integrating them into the aircraft itself, using next-generation computer algorithms to organize and display information for the pilot. We see some of this already in the F-35; the aircraft sensor fusion uses advanced computer technology to collect, organize and display combat relevant information from a variety of otherwise disparate sensors onto a single screen for pilots. In addition, Northrop's Distributed Aperture System is engineered to provide F-35 pilots with a 360-degree view of the battlespace. Cameras on the DAS are engineered into parts of the F-35 fuselage itself to reduce drag and lower the aircraft's radar signature. Smart skins with distributed electronics means that instead of having systems mounted on the aircraft, you would have apertures integrated on the skin of the aircraft, analysts have said. This could reduce drag, increase speed and maneuverability while increasing the technological ability of the sensors. It is also possible that the new 6th-generation fighter could use advanced, futuristic stealth technology able to enable newer, more capable air defenses. The air defenses of potential adversaries are increasingly using faster computing processing power and are better networked together, more digital, able to detect a wider range of frequencies and able to detect stealthy aircraft at farther distances. The new 6th-generation fighter will also likely fire lasers and have the ability to launch offensive electronic attacks. https://nationalinterest.org/blog/buzz/f-35s-are-dead-sixth-generation-fighter-aircraft-its-way-114901