NGC Demos Advanced Capabilities at Northern Edge 2019

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  August 20, 2020 | International, Aerospace

  US Army network team sets timeline for satellite constellations

  Andrew Eversden WASHINGTON — The U.S. Army's tactical network program office expects to reap the full benefits of low-and medium-Earth orbit satellite constellations in the 2025-2027 time frame, the head of the office said Aug. 18. Speaking on a webinar hosted by the Defense Advanced Research Projects Agency, Brig. Gen. Rob Collins, program executive officer at Program Executive Office Command, Control, Communications-Tactical, said the two constellations types offer “game-changing technologies” that will likely be fully mature and ready for soldier use in Capability Set ‘25 or ‘27, the two-year cycle of new network tools the service is fielding. One of the connectivity benefits of the LEO and MEO constellations in the field, Collins said, is that they can allow for complex network functions and mission-support capabilities to remain in a safer place. “We may be able to put those in an area in a more safe sanctuary and allow our war-fighting formations, our brigades and divisions to better focus on what their tactical mission is without having to concern themselves with the force protection of those areas,” the one-star general said at DARPA's virtual Electronic Resurgence Initiative Summit. The Army is interested in LEO and MEO satellite constellations because they can provide significantly more bandwidth and reduced latency. “It's really all about having a resilient network architecture that takes advantage of all the layers that can be expeditionary,” Collins said. LEO and MEO can also allow for smaller ground terminals, which will increase mobility for the soldier, he added. PEO C3T is currently working on prototypes of new satellite capabilities in partnership with the Army's Combat Capabilities Development Command. PEO C3T's Project Manager Tactical Network division will run lab-based experimentation with new satellite terminals this summer to “exploit some of the commercial capabilities,” Collins said. The program office is also working with the CCDC's Space and Terrestrial Communications Directorate on creating multi-band satellite terminals. 5G technology will add an additional layer of network speed. Collins said the Army anticipates 5G technology has the “potential” to be incorporated into Capability Set '25. But he warned that the Army operates in unique environments with rough terrain and foliage that can affect communications, and can not always rely on towers and relay stations. “I think one of the things we're going to have to do is how can we take and best employ some of this technology, how do we link it into our current environment and ensure that it's mobile,” Collins said. “And then probably, importantly, to make sure how do we secure some of the endpoints associated with the technology. I think that's really an area that we'll be reaching out to industry, academia and others to see how we best incorporate that.” https://www.c4isrnet.com/battlefield-tech/space/2020/08/19/us-army-network-team-sets-timeline-for-satellite-constellations/

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  February 1, 2023 | International, Land

  Germany plans to buy eight IRIS-T air defence systems for its military - document

  Germany aims to purchase eight IRIS-T air defence units for its military, according to a document seen by Reuters, referring to a medium-range surface-to-air system that Berlin has bought to donate to Kyiv but not yet purchased for its own forces.

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  February 21, 2020 | International, Aerospace

  Lockheed’s Raider X enters construction in advance of US Army’s decision on way forward

  WEST PALM BEACH, Fla. — Lockheed Martin's Sikorsky is already building its prototype for the U.S. Army's Future Attack Reconnaissance Aircraft competition ahead of the service actually choosing companies to build prototypes. While the Army will select two companies to proceed next month, Lockheed is already using funding as part of its contract to build its Raider X coaxial helicopter, Tim Malia, Sikorsky's FARA director, told a group of reporters Feb. 19 at the company's flight test facility. The Army awarded full-scope contracts to the five teams selected to design FARA; those deals included funding to build aircraft. But when the Army chooses which two teams will move forward, that funding spigot essentially turns off for those that aren't picked. When asked what happens with Raider X, should the Army decides to go with other teams, Malia said: “I don't anticipate that problem.” The five teams that won awards in April 2019 to design FARA were: AVX Aircraft partnered with L3 Technologies; Bell Helicopter; Boeing; a Karem Aircraft, Northrop Grumman and Raytheon team; and Sikorsky. Sikorsky's offering is based on its X2 coaxial technology seen in its S-97 Raider and the Sikorsky-Boeing developed SB-1 Defiant, which are now both flying. The prototype aircraft are expected to start flying in the fourth quarter of fiscal 2022, and the flight test is expected to run through 2023. The engineering and manufacturing development phase is expect to begin in FY24. “This is the culmination of years of investment in the X2 Technology Demonstrator and the S-97 Raider aircraft that have proven the advanced technology and shown its ability to change the future battlefield,” Malia told Defense News when the company first unveiled its design for FARA. FARA is intended to fill a critical capability gap currently being filled by AH-64E Apache attack helicopters teamed with Shadow unmanned aircraft following the retirement of the OH-58D Kiowa Warrior helicopters. The service has tried and failed three times to fill the gap with an aircraft. The Army also plans to buy another helicopter to fill the long-range assault mission, simultaneously replacing some UH-60 Black Hawk helicopters in the fleet. The SB-1 Defiant is a possible candidate for that future aircraft. https://www.defensenews.com/land/2020/02/20/lockheeds-raider-x-already-under-construction/