Saab Receives Order for Gripen Support and Maintenance Operations

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  9 septembre 2020 | International, Aérospatial

  Turkey develops AI-based simulator for light fighter jet

  Burak Ege Bekdil ANKARA, Turkey — Turkish Aerospace Industries says it has developed Turkey's first artificial intelligence-based simulator, which will be used in the design and development phases of Hurjet, a locally designed light assault aircraft. TAI said the engineering simulator, Hurjet 270, is designed to collect feedback from test pilots to make the design of Hurjet “better, more solid and more efficient.” The simulator is also meant to detect design faults at the development stage. Company officials said the simulator will feature “human eye-level resolution.” Atilla Dogan, TAI's deputy general manager for aircraft design, told the state news agency Anadolu that Hurjet 270 will help engineers improve designing flight control algorithms and avionics software based on feedback from test pilots. The armed trainer Hurjet is a jet engine version of the turboprop Hurkus, Turkey's first indigenous basic trainer aircraft. TAI launched the Hurjet program in 2018, with a target of having the aircraft's maiden flight in 2022. The Hurjet will have a maximum speed of Mach 1.2 and can fly at a maximum altitude of 45,000 feet. The aircraft will have a maximum payload of 3,000 kilograms, including ammunition, radar and camera. Hurkus-C, the armed version of the base variant of Hurkus, features locally developed ammunition including CIRIT, TEBER, HGK and LGK. It can also use INS/GPS-guided bombs, conventional bombs, non-guided rockets and machine guns. Hurkus-C also features armored body parts, a self-protection system, a data link, laser tacking, an electro-optical and infrared pod, an external fuel tank, and advanced avionics. With a 1,500-kilogram payload that can be used through seven external hardpoints, the Hurkus-C can perform light-attack and armed reconnaissance missions. https://www.c4isrnet.com/artificial-intelligence/2020/09/08/turkey-develops-ai-based-simulator-for-light-fighter-jet/

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  16 septembre 2019 | International, Aérospatial

  Lockheed Martin Skunk Works®' Project Riot Demonstrates Multi-Domain Operations

  PALMDALE, Calif., Sept. 16, 2019 /PRNewswire/ -- Lockheed Martin (NYSE: LMT) Skunk Works®, the Missile Defense Agency and the U.S. Air Force successfully connected an F-35, U-2 and a multi-domain ground station in a ground-breaking test demonstrating multi-domain operations and the secure distribution of sensitive information across multiple platforms. During the demonstration, called Project Riot, an F-35 detected a long-range missile launch with its onboard sensors and shared the information through the U-2 to the air defense commander on the ground, enabling the commander to quickly make the decision to target the threat. This next-level connectivity reduces the data-to-decision timeline from minutes to seconds, which is critical in fighting today's adversaries and advanced threats. In partnership with the Air Force Life Cycle Management Center at Hanscom Air Force Base, Massachusetts, and the Missile Defense Agency, Skunk Works' Project Riot builds on a series of open systems architecture demonstrations proving how incremental increases in capability can be rapidly fielded to enable a connected network across air, ground, sea, space and cyber domains. "This demonstration continues our commitment to provide complete battlespace awareness and seamless interoperability to enable multi-domain operations," said John Clark, vice president of ISR & UAS at Lockheed Martin Skunk Works. "With its long-range standoff sensors, on-board processing and ability to operate in and around contested environments, the U-2 continues to play a critical role in demonstrating new capabilities today, while transforming operations for tomorrow's battlespace." Leveraging common industry standards to drive down cost and shorten schedules, the team achieved four mission critical data points in less than four months: Demonstrated the ability to leverage F-35 sensor data for missile defense Leveraged the modernized U-2's extensive payload capacity, modular design and open architecture to provide beyond line of sight communications between the F-35 and a multi-domain ground station Established two new data paths to securely transmit 5th generation sensor data at multiple levels of security to the warfighter, enabling a multi-domain network of legacy and 5th generation systems Disseminated 5th generation data using the Air Force's Universal Command and Control Interface and Open Mission Systems standards for faster capability deployment and seamless connection between systems "The F-35, with its advanced sensors and connectivity, is able to gather and seamlessly share critical information enabling the joint force to be safer and more effective," said Greg Ulmer, Lockheed Martin vice president and general manager for the F-35 program. "No other fighter jet in the world has this capability – and this test was a critical step on the path to unlocking its full potential for multi-domain operations." This demonstration builds on successful flight tests completed since 2013 that establish the foundation for a distributed, systems-of-systems architecture in the not-too-distant future. For additional information, visit our website: www.lockheedmartin.com/MDO https://news.lockheedmartin.com/2019-09-16-Lockheed-Martin-Skunk-Works-R-Project-Riot-Demonstrates-Multi-Domain-Operations

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  24 septembre 2020 | International, Aérospatial, C4ISR

  USAF Discussing Larger Fighters, Weaponized KC-46, Roper Says

  Steve Trimble Developing larger and longer-ranged fighters, weaponizing the Boeing KC-46 fleet, and possibly fielding a new type of unmanned, small and stealthy tanker are all now in discussion by U.S. Air Force leaders, assistant secretary of the Air Force Will Roper said on Sept. 23. As the head of acquisition, technology and logistics, Roper said he and the new chief of Air Mobility Command, Gen. Jacqueline Van Ovost, are “excited” now about the direction of the long-troubled KC-46 program, as the Air Force and Boeing continue to finalize the Remote Vision System 2.0 upgrade. The KC-46's turnaround, Roper said, is allowing acquisition and mobility officials to turn their attention to addressing another Air Force refueling problem: How to solve a yawning gap between refueling capacity and operational need for inflight refueling, especially at the forward edge of a ring of contested airspace, where large and, for now, relatively defenseless aircraft such as the KC-46 are most vulnerable. Building a more survivable and responsive air refueling capability that can be used in a contested war zone was the focus of a meeting this week between Roper and Van Ovost, he said. “One of those next strategic questions for the Air Force is going to be can you defend a tanker against an onslaught of fighters who know that every tanker you kill, it's like killing a lot of fighters or bombers or drones that it supports,” Roper said. Roper prefers not to take a one-size-fits-all solution, such as a single major new acquisition program that buys only one type of aircraft. Instead, the Air Force should evaluate the solution to the contested aerial refueling problem as an architecture, with multiple options that can be dialed back and forth. One option for reducing demand on tankers is a new fighter aircraft that is designed to carry more fuel. “Maybe having [the] small, currently sized fighters is not the way to go in [the] future,” Roper said. “And since we're all abuzz with digital engineering and thinking about what the future fighter force could look like, thinking about bigger fighters is a natural question.” Another way to make the KC-46 fleet more survivable, and thus operate closer to the forward edge of contested airspace, is to weaponize the aircraft, he said. “We don't put weapons and sensors on tankers to shoot down aircraft, but the current KC-46 is a big airplane with the ability to mount sensors and weapons under the wings,” Roper said. “We just don't do it because we can use a fighter combat air patrol to defend high-value assets.” The Air Force also may need a different kind of tanker in the future, he said. Two options are possible: A larger aircraft than the KC-46 that could carry more fuel, but needs to stay farther away from potential threats, or much smaller, unmanned and stealthy “micro-tankers” that could operate much closer or even inside defended airspace, Roper said. “I expect that as we really look at airpower in the truly contested environment that we'll be looking at fuel very strategically,” Roper said. https://aviationweek.com/defense-space/aircraft-propulsion/usaf-discussing-larger-fighters-weaponized-kc-46-roper-says