Britain’s new Protector drone completes maiden flight

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  22 mai 2020 | International, Aérospatial

  Indra leads the European project that will give control of radioelectric space to fighters and aircraft

  Spain, May 20, 2020 - Indra will lead the European CROWN R&D project that will equip European fighters and aircraft with capabilities which combine radar, communications and electronic defence to dominate radioelectric space and operate at an advantage over the enemy. The company will coordinate the work of a consortium formed by Thales, Office National D'Etudes et de Recherches Aerospatiales (ONERA), Hensoldt, Fraunhofer-Gesellschaft, SAAB, Totalforsvarets Forskningsinstitut (FOI), Netherlands Organisation for Applied Scientific Research (TNO), Leonardo, Elettronica, and Baltijos Pazangiu Technologiju Institutas (BPTI). The project has been selected to form part of the Preparatory Action for Defence Research of the European Commission managed by the European Defence Agency and the grant agreement is now being prepared. This group of companies and research centers from seven countries will design the first element capable of integrating radar, electronic defence and communications equipment into a single compact and lightweight item of equipment that can be installed in the aircraft nose cone, camouflaged in the fuselage, or in an under-wing pod, on multiple platforms (even in UAVs). It will be a system based on active electronically scanned array (AESA) and sophisticated algorithms that will enable multi-purpose use for different capacities and in an optimized way. No other country as yet possesses this capability so it will bring a major advantage to whoever acquires it first. This integration will enable the aircraft's radar to intelligently select the least congested area of the spectrum to operate effectively and extend its range, even in environments where the adversary tries to interfere with its operation. At the same time, coordination of the radar with the systems that monitor the radio spectrum and those that generate countermeasures (ES/EA) will significantly improve the performance of these systems and of aircraft weapons systems in general. As for communications, they will gain range and bandwidth to exchange a greater volume of data with other platforms at higher speeds. The ultimate goal is to equip the aircraft of the future with a compact solution, smaller in size, with a lower weight and cost, and more power to provide a decisive advantage. On this will depend the ability to detect the enemy, select and fix targets and exchange data with other platforms on land, sea or air to prevail in combat or protect themselves from attack. Electronic defence has been placed at the center of military strategy in recent years as some countries resort to controlling radioelectric space as a way to counter the superiority of European and allied aircraft. The CROWN project could subsequently address the adaptation of this system for use by ground units and all types of land vehicles and ships. Leadership of the European defence sector The Spanish Government has appointed Indra as the national industrial coordinator in the European Defence Program FCAS (Future Combat Air System), the largest joint European Defence program to date and the most ambitious in terms of technological development. Indra will carry out this work together with the industrial leaders appointed in turn by France and Germany, Dassault and Airbus, respectively. The company also participates in the proposals for 9 EDIDP consortiums (European Defence Industrial Development Program) that are being evaluated and acts as coordinator in 3 out of 5 consortiums led by Spain, among others, the PESCO program for Strategic Command and Control, probably the most important of them all, in which Spain, Italy, Germany, France, Luxembourg and Portugal participate. Besides this, Indra has been participating for decades in international programs such as the Eurofighter, A400M, NH90, Meteor and ESSOR, as well as non-European projects and in the NATO environment such as ESSM, FLEPS, ACCS and many others. About Indra Indra (www.indracompany.com) is one of the leading global technology and consulting companies and the technological partner for core business operations of its customers world-wide. It is a world-leader in providing proprietary solutions in specific segments in Transport and Defence markets, and the leading firm in Digital Transformation Consultancy and Information Technologies in Spain and Latin America, through its affiliate Minsait. Its business model is based on a comprehensive range of proprietary products, with an end-to-end focus and a high innovation component. In the 2019 financial year, Indra achieved revenue of €3.204 billion, with more than 49,000 employees, a local presence in 46 countries and business operations in over 140 countries. View source version on Indra: https://www.indracompany.com/en/noticia/indra-leads-european-project-will-give-control-radioelectric-space-fighters-aircraft

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  27 août 2020 | International, Aérospatial

  GA-ASI Selects 18 Businesses to Participate in Virtual Blue Magic Belgium

  SAN DIEGO, Aug. 26, 2020 /CNW/ -- As part of the second annual "Blue Magic Belgium" industry engagement event hosted by General Atomics Aeronautical Systems, Inc. (GA–ASI), 18 Belgium-based companies have been selected to present their ideas and cutting-edge capabilities to a panel of GA-ASI technical experts. The panel will evaluate the companies in a virtual interview setting and make decisions on which capabilities can support the development of MQ-9B SkyGuardian®, the GA-ASI Remotely Piloted Aircraft (RPA) selected by Belgian Defense. The presentations will be held during the week of Sept. 21 and unlike the first Blue Magic Belgium (BMB) industry outreach event in 2019, this year's event will be held virtually due to travel and in-person meeting restrictions stemming from the coronavirus. "We're very excited to host our second Blue Magic Belgium event," said Linden Blue, CEO, GA-ASI. "Our first BMB event was a great success as we identified four Belgian companies who are now part of our SkyGuardian development team. We look forward to the same success this year. We know that attracting new Belgian businesses means more jobs for Belgium and it helps GA-ASI produce the best RPA for Belgian Defense and all NATO countries." As part of last year's event, AeroSimulators Group (ASG), AIRobot, ALX Systems and Hexagon joined Team SkyGuardian, which already included these five Belgium companies: SABCA, Thales Belgium, ScioTeq, ST Engineering and DronePort. GA-ASI is working with these companies now to generate next-generation capabilities for their RPA. The companies participating in Blue Magic Belgium the week of Sept. 21 will be Airobot, AKKA BENELUX, Altran Belgium, ALX Systems, Any-Shape, Cenaero, Feronyl, Hexagon Geospatial, IDRONECT, Lambda-X, ML2Grow, Moss Composites, Optrion, Oscars, ScioTeq, Siemens, VITO-Remote Sensing, and von Karman Institute for Fluid Dynamics. Hi-resolution images of MQ-9B SkyGuardian are available to qualified media outlets from GA-ASI. About GA-ASI General Atomics Aeronautical Systems, Inc. (GA-ASI), an affiliate of General Atomics, is a leading designer and manufacturer of proven, reliable Remotely Piloted Aircraft (RPA) systems, radars, and electro-optic and related mission systems, including the Predator® RPA series and the Lynx® Multi-mode Radar. With more than six million flight hours, GA-ASI provides long-endurance, mission-capable aircraft with integrated sensor and data link systems required to deliver persistent flight that enables situational awareness and rapid strike. The company also produces a variety of ground control stations and sensor control/image analysis software, offers pilot training and support services, and develops meta-material antennas. For more information, visit www.ga-asi.com. SkyGuardian, SeaGuardian, Predator and Lynx are registered trademarks of General Atomics Aeronautical Systems, Inc. GA-ASI Media Relations General Atomics Aeronautical Systems, Inc. +1 (858) 524-8101 ASI-MediaRelations@ga-asi.com Related Images ga-asis-mq-9b-skyguardian.jpg GA-ASI's MQ-9B SkyGuardian "We're very excited to host our second Blue Magic Belgium event," said Linden Blue, CEO, GA-ASI. "Our first BMB event was a great success as we identified four Belgian companies who are now part of our SkyGuardian development team. SOURCE General Atomics Aeronautical Systems, Inc. https://www.newswire.ca/news-releases/ga-asi-selects-18-businesses-to-participate-in-virtual-blue-magic-belgium-836568869.html

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  10 août 2020 | International, Aérospatial

  Alaska-based long-range ballistic missile defense radar fielding delayed by a year

  By: Jen Judson WASHINGTON — The fielding of a U.S. Air Force radar to detect ballistic missile threats, currently being installed at Clear Air Force Station, Alaska, is delayed by roughly a year, according to a recent Government Accountability Office report. Information provided by the Missile Defense Agency in June to the GAO indicated all construction and integration activities for the Long Range Discrimination Radar had stopped in March due to the coronavirus pandemic. While initial fielding was planned for fiscal 2021 and transfer to the Air Force was planned for fiscal 2022, the service is now expected to take ownership of the operational radar in late fiscal 2023. “We did have some fallback in developing and delivery of systems because it requires people to be in close, confined spaces and sitting at computer terminals working through really tough problems like the development of an algorithm,” MDA Director Vice Adm. Jon Hill said at the virtually held Space and Missile Defense Symposium on Aug. 4. MDA shut down radar installation efforts due to the COVID-19 pandemic, entering a “caretaker status,” Hill said. “That requires additional work. I mean, you've got a radar that is being built in a tough environment like Alaska — you can't just stop. You have to go in and make sure the radar arrays are protected,” he added. The LRDR is an S-band radar that will not only be able to track incoming missiles but also discriminate the warhead-carrying vehicle from decoys and other nonlethal objects for the Ground-Based Midcourse Defense System, which is designed to protect the continental U.S. from possible intercontinental ballistic missile threats from North Korea and Iran. Lockheed Martin is LRDR's manufacturer. The program, according to the GAO report, wrapped up its system prototype assessment in an operational environment in FY19, which showed the hardware and software was mature ahead of full-rate manufacturing. That assessment was delayed from FY18, the report noted, after testing took longer due to “required antenna reconfigurations and software fixes to complete.” The fixes resulted in a cost overrun of $25 million and caused a delay in completing a developmental step associated with satellite tracking expected in FY18, according to the report. “While construction was ongoing in [FY19], the program was monitoring risks that could threaten the upcoming transfer of LRDR custody and ownership to the government,” the report stateed. “Specifically the program was focusing on manufacturing of the Array Panels, Sub Array Assembly Suite modules, and Auxiliary Power Group cabinets, as well as ensuring integration on site.” Those issues “depleted schedule margin on the path towards the transfer,” which was scheduled for the fourth quarter of FY20, according to the GAO, and the transfer of LRDR custody to the government was pushed back to the first quarter of FY21 due to radar component production issues. “The good news is construction is back up and running,” Hill said, “and we are delivering those arrays that are going into low-power and high-power testing later this year, so we are pretty excited about that.” According to the GAO, the current test plan for LRDR has just one flight test scheduled in the third quarter of FY21, after two ground tests. The report does not clarify if the pandemic has caused a delay in these tests. The GAO indicated concern about conducting two ground tests before the program's only flight test, as it “increases the likelihood that the models will not be accredited when testing is complete.” As a result, “the performance analysis and the majority of the model validation and accreditation will have to be made concurrently, just prior to the LRDR Technical Capability Declaration,” scheduled for the third quarter of FY21, the report stated. “This increases the risk of discovering issues late in development, which could result in performance reductions or delivery delays.” https://www.defensenews.com/digital-show-dailies/smd/2020/08/07/alaska-based-long-range-ballistic-missile-defense-radar-fielding-delayed-by-a-year/