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March 25, 2024 | International, Land

Germany buys €2.7bn Rheinmetall platform from Australian sites

Following cuts to armour in Australia's 2023 Defence Strategic Review, Rheinmetall use Australian sites in a €2.7bn German Army contract.

https://www.army-technology.com/news/germany-buys-e2-7bn-rheinmetall-platform-from-australian-sites/

On the same subject

  • How new prototyping dollars will help Army network modernization

    July 22, 2020 | International, Aerospace, Naval, Land, C4ISR, Security

    How new prototyping dollars will help Army network modernization

    Andrew Eversden ABERDEEN PROVING GROUND, Md. — The U.S. Army is moving forward on a number of projects to bolster its tactical network, thanks to a new pool of money dedicated to prototyping and maturing emerging technology. Additions to the Army's tactical network will come every two years as part of modernization efforts called capability sets. Previously, prototypes of emerging technology would fall into the “valley of death,” where technology projects that didn't have enough funding to transition into programs of record would die, said Maj. Gen. Peter Gallagher, director of the Army's Network Cross-Functional Team. The CFT received nearly $30 million to support prototyping efforts for science and technology efforts as well as industry work in fiscal 2020, according to Justine Ruggio, communications director for the CFT. According to a May news release from Army Program Executive Office Command, Control, Communications-Tactical, the Army network modernization team has identified eight “promising,” Army-led science and technology efforts as well as six industry-led prototyping projects. The Army is particularly interested in low-Earth orbit satellite constellations to improve bandwidth and reduce latency for Capability Set '23 and Capability Set '25, said Michael Breckenridge, acting associate director for the Office of Science and Technology. His office falls under the purview of the Army's Combat Capabilities Development Command C5ISR (Command, Control, Communication, Computers, Cyber, Surveillance, and Reconnaissance) Center. The S&T team is researching how the service can move and secure traffic through these constellations. “While those are very much in their infancy as far as the commercial LEO constellations coming together, we're already working with those vendors to try and get satellite time to be able to do experimentation to understand the capability and how do we shape, then, future investments in that space,” Breckenridge said. The Network CFT is also excited about the survivability and mobility of the Army's command posts, said Donald Coulter, senior S&T adviser for the CFT. It's also focused on spectrum obfuscation capabilities as well as an identity management project that explores new ways of verifying users' identities (for example, through wearables) to ensure the security of Army systems if equipment falls into enemy hands, he added. The S&T community and the CFT are also working on a secure communications link between manned and unmanned fighting vehicles, something that may be used for other parts of the network, Breckenridge said. For example, the C5ISR Center is also experimenting with that link for distributed command post nodes and between command post links, he noted. Previously, a lack of funds made it difficult to create an “entire road map to field” prototypes, he added, and teamwork between the network team and S&T community suffered. But with the newly allocated funds, the S&T community and the Network CFT are able to work more closely. The dollars have been “the key to have the groups from across all those different communities come together focusing on what specifically we need to take viable concepts and promising concepts from idea to demonstration to real ... tangible and robust thing[s] that we can acquire and field,” said Coulter. With the prototyping dollars now in place, the CFT is expected to have an easier time developing technologies for the service's network modernization plan, driven by capability sets. Capability Set '21, which completed critical design review in April, is focused on addressing immediate gaps in the Army's network with currently available technologies. The Army has begun buying those new network tools, which focus on smaller, lighter, faster communication systems for soldiers, and will begin fielding the technology in fiscal 2021. Meanwhile, Capability Set '23, which has preliminary design review scheduled for April next year, is focused on high-capacity, low-latency communications that aren't mature enough today, Gallagher said at the C4ISRNET Conference in May. Future capability sets will include emerging technologies that improve network resiliency. For example, after Capability Set '23, soldiers will have more bandwidth at the tactical edge, allowing for the increased adoption of machine learning and other emerging technologies. The Army is also in the planning stages of Capability Set '25. Even as the Army identifies key technologies for future capability sets, it must work within the constraints of budgets, meaning that the Network CFT and the C5ISR Center have to work together to identify S&T priorities. Coulter said the “key thing” that the CFT does is prioritize its portfolio and provide guidance on critical capability gaps. Breckenridge said the S&T community brings an understanding of adversarial threats to the network and what investments can be made to mitigate those threats to inform the CFT's prioritization. “One of the key things that S&T community does is ... identify those opportunities,” Coulter said. “So we're threat-informed and -aware, but we also are looking from a technology perspective of where can we get the leap-ahead opportunities that can impose challenges to our adversaries and take our network to the next level. So we have to rely on them heavily, not only for some threat information, but also ... those unique potential opportunities from a technology perspective as well.” https://www.c4isrnet.com/battlefield-tech/it-networks/2020/07/20/how-new-prototyping-dollars-will-help-army-network-modernization/

  • Royal Air Force Typhoon jets to receive key sensor upgrade

    August 9, 2019 | International, Aerospace

    Royal Air Force Typhoon jets to receive key sensor upgrade

    By: Andrew Chuter WARTON — With a complex weapons integration program squared away, giving Royal Air Force Typhoon jets more punch, key sensors on the jet could see an upgrade. The RAF's test and evaluation squadron is already test flying the Litening 5 targeting pod in order to optimize its operation by Typhoon pilots. Work is also underway to update and improve the reliability of the jets Pirate passive infrared airborne track equipment, said Andy Flynn, BAE System's Typhoon capability director. Known as Project Centurion, the British late last year completed integration of MBDA's Meteor, Brimstone and Storm Shadow missiles on Typhoon in 47 months. At a cost of around £425 million, or $515.83 million, the program allowed the RAF to stand down the entire fleet of Tornado jets that had provided the primary strike capability. Flynn told reporters during a briefing at the company's Warton combat air site in northwest England Aug. 7 that the sensor work was “the next iteration of Centurion.” “Agile spiral development and keeping the aircraft relevant is the phase we are in. We have done the big leap and it's now about keeping it relevant,” he said. The Tornado was a two-seat aircraft, whereas the Typhoon is single seat. Flynn said the work on the Litening 5 was about easing pilot workload. “What we are doing now is getting the feedback from customer and operations teams on how to make that tasking simpler and really increase the cycle time on ops. We've already got Litening 5 pods up in the air as an iteration and we are seeking feedback from 41 Squadron [the test and evaluation squadron], ” he said. The plan is to get the enhanced capability “out to the front line by the end of next year,” said Flynn. Development phase work is also underway on a new iteration of Pirate as well improving the reliability and robustness of the sensor. “That work is in the development phase and we are doing that over the Autumn period. What we are doing on Typhoon overall is really enhancing the sensors capability as well making the workload easier for the pilot,” said Flynn. The sensor changes are a small part of a wider capability update on the Typhoon to keep aircraft relevant until they go out of service, currently set for 2040. On the horizon for the RAF is a new e-scan radar, known as Radar 2, which is being developed for the British by Leonardo; the new BAE Striker II helmet; and networked enabled weapons. But, Eurofighter, the Airbus, BAE, and Leonardo industrial partnership responsible for the development and production of the Typhoon, is also conducting a review of future potential updates to the fighter. Eurofighter announced at the Paris Air Show in June a deal valued at 53.7 million euros with the NATO Eurofighter & Tornado Management Agency, or NETMA, to undertake a long-term evolution review of the fighter and the EJ200 engine over the next 19 months. NETMA represents the British, German, Italian and Spanish governments. Flynn said there were more than 50 separate candidate technologies being considered by the evolution review. Some of those potential upgrades could also find themselves cross decking to the Tempest sixth-generation fighter now being proposed by the British. Clive Marrison, the industrial requirements director for Team Tempest, the industrial/government partnership leading the next-generation fighter work , said both jets could benefit from close development ties. “Typhoon could benefit from some of the technologies that Tempest is looking at and by the same token Tempest could benefit from some of the technologies that Typhoon is investing in,” said Marrison. For example: Some of the cockpit and helmet work BAE is doing might allow industry to offer some of those technologies back into Typhoon, said Marrison. While the BAE executives were looking into the future for British combat air capabilities, the Typhoon approaches a landmark of sorts to be celebrated. Sixteen years after taking delivery of its first Typhoon, the RAF is preparing to receive the final aircraft ordered for its fleet in the next few weeks, said Flynn. The final aircraft in a British order for 160 Typhoons made its test flight recently and is due to be handed over to the RAF in the coming weeks. Completion of the order leaves 24 aircraft destined for Qatar on the order book for BAE, although it is also building parts of the Typhoons sold to Kuwait by Eurofighter partner Leonardo. Three equipment sets have so far been completed at BAE's Samlesbury plant near Warton, destined for the Leonardo assembly site in Italy. Flynn said the Qatar build program was just getting underway. The 24 aircraft order will see deliveries start in 2022 with completion set for 2024. https://www.c4isrnet.com/global/europe/2019/08/08/royal-air-force-typhoon-jets-to-receive-key-sensor-upgrade/

  • DARPA Launches Social Media Platform to Accelerate R&D

    March 20, 2019 | International, Aerospace, Naval, Land, C4ISR, Security, Other Defence

    DARPA Launches Social Media Platform to Accelerate R&D

    DARPA aims to apply the power of social networks to research and development via a novel social media platform purpose-built to quicken the pace of U.S. technology development. Polyplexus, which was recently launched as a public platform, is designed to increase access to scientific evidence and accelerate hypothesis development, research proposal generation, and research sponsor engagement. The platform's real-time interactions and functionality are designed to dramatically shorten the time between the emergence of concepts and the submission of worthy proposals. The platform facilitates connections among experts across academic disciplines so they can propel novel research opportunities together. Beta-launched for academics only in 2018, Polyplexus is now open to the broader research and development community and features an initial offering of research topics for collaboration and potential funding. DARPA seeks participation from anyone who is interested in sharing and learning about emerging science and technology including researchers, practitioners, and even retirees. “Crowdsourcing on the internet works when the solution exists and can be found,” said John Main, program manager in DARPA's Defense Sciences Office. “However, no amount of crowdsourcing will ever work if it's a research and development problem that must be solved, because the solution does not yet exist. That's why we built Polyplexus as a productivity platform rather than a crowdsourcing platform.” Polyplexus is composed of three integrated components: a public information feed where users can promote interesting research and connect it to other research via tweet-like summary statements called micropubs; a private tool for synthesizing new ideas, known as micropub portfolios; and an incubator environment. Incubators allow research sponsors in government and industry to post specific topics of interest and find research and development specialists to address their challenges. Following a 2018 test phase that was restricted to academic researchers, Version 1 of Polyplexus is now open to the public. Researchers and research sponsors across disciplines and industries are invited to sign up and become “Plexors” at https://polyplexus.com/users/login. During the Beta test phase, DARPA awarded funding to multiple proposals generated by founding members on the platform. Recipients included researchers from the University of Arkansas, Arizona State University, University of North Carolina, University of Miami, and Rensselaer Polytechnic Institute. With the public launch of Polyplexus, DARPA's Defense Sciences Office intends to fund up to 30 one-year seedling efforts developed through Polyplexus incubators over the next 18 months. These funding opportunities are capped at a maximum of $100,000 each. They will roll out at a pace of approximately two per month. DARPA just announced the first three Polyplexus incubators focused on Quantum Machine Learning (https://go.usa.gov/xEFpV), Human Learning (https://go.usa.gov/xEFpA), and Strategic Technological Surprise (https://go.usa.gov/xEFpm). To learn more about the incubator topics visit the incubators section on https://Polyplexus.com. Abstracts and proposals resulting from DARPA incubators will be submitted directly to DARPA as specified in the Polyplexus BAA: https://go.usa.gov/xEFpE. Abstracts and proposals are not submitted on the Polyplexus site. Anyone may create an account and contribute to the public areas of the site. Retired scientists, engineers, and researchers are especially encouraged to continue to share their expertise by engaging as Plexors. Plexors can also contribute suggestions for new features that will be included in Polyplexus Versions 2 and 3, which are planned for development over the next 18 months. “Polyplexus maintains a balance between public information exchange and protection of private intellectual property,” Main said. “It also creates an avenue for broader participation in DARPA research and development, including by those who aren't looking for a research project but who have knowledge to contribute, such as retirees.” Researchers should monitor the announcement and evolution of each individual incubator on the platform to fully understand the topic, opportunity, and requirements. Follow @polyplexors on both Instagram and Twitter for updated information. https://www.darpa.mil/news-events/2019-03-19

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