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  4 mai 2018 | International, C4ISR

  The sparring partner who roughs up Marines with Snapchat

  By: Adam Stone The arm of the U.S. Marine Corps charged with tackling emerging threats has inked a deal that it says will allow it to do more realistic testing. “You want a sparring partner who reflects your adversary's capabilities,” said Lt. Col. Dan Schmidt, head of the field testing branch at the USMC Warfighting Lab. Enter MD5, the National Security Technology Accelerator. The Marine lab will identify challenges, develop warfighting concepts and design wargames and experiments. MD5 also will provide a platform upon which to accelerate these evolving concepts. Together the partners will support an Adaptive Threat Force Cadre, specially trained individuals who can share with their cohorts new and evolving response methodologies in the face of a wide range of threats. While the Marine lab will bring a military sensibility to the table, MD5 offers a private-sector approach. It is represented in this collaboration by Quantico, Va. based training-solutions contractor Guard Unit. “MD5 is designed to bring a commercial mindset to help solve problems in DoD,” said Zenovy Wowczuk, chairman of Guard Unit. “We bring technologists and other folks who haven't been standardized with DoD doctrine. They are private sector free thinkers, so they reflect the future adversary who also hasn't been indoctrinated into that mindset.” Schmidt laid out a number of specific warfighting challenges the partners seek to address. The partnership aims to tackle pervasive challenges in the information environment, issues around electronic warfare, cyber security, and command and control. The Marines want to look at technological fixes as well as organizational changes that could make the force more responsive to these threats. “How do we dominate and operate effectively with decentralized execution in a contested information environment?” Schmidt said. “Maybe if we just change a little bit of how we train and organize, we can dramatically impact the way we execute. We have a whole year of experiments lined up to flesh that out.” They also plan to look at hybrid logistics in support of future fighters. “We may have to spread out to greater distances with smaller units. Then you have to move blood plasma to the point of injury in a contested environment with contested networks. Now you are facing a whole new set of problems,” he said. Hybrid logistics could resolve some of these issues by combining the planning skills of human experts with artificial intelligence, robotics and rich data tracking. Another area of interest involves dense urban operations, an emerging combat scenario that brings my it myriad new concerns and challenges. “We know that the Marine Corps will fight expeditionary wars in mega-cities and we are in the process of discovering the implications of that,” Schmidt said. This exploration will likely dig deep into issues of networking, spectra and cyber strategy. “You have tunnels and skyscrapers and all this electromagnetic density,” Schmidt said. “We are in the early stages of developing an urban campaign plan, which has to include a range of emerging technologies. Our ground combat element, our logistics, our electronic environment ― all will play into how we fight in this environment.” MD5's close ties to industry could prove beneficial here. “We could pull in subject matter experts who have done city planning, who understand where the weak points are, and we could mount that data against the Marine Corps force to see how they react,” Wowczuk said. “We could pull from [off-the-shelf] technology to make it very difficult for the Marine Corps to do their job.” Early collaborations between the Marine and MD5 already have proven out the powerful potential of a bringing commercial-side view to the fight. In one experiment, a mock adversary was able to cull social media to gather critical intelligence on Marine activities. “We weren't used to that paradigm, where there is this rich environment of people on Snapchat taking pictures of us. They showed us just how easy it is to gather information, and from there we can devise new ways to protect some of our intelligence interests,” Schmidt said. “We would not have seen that without MD5. This is all about having an alternative perspective.” https://www.c4isrnet.com/electronic-warfare/2018/05/03/the-sparring-partner-who-roughs-up-marines-with-snapchat/

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  13 décembre 2021 | International, Aérospatial

  Australian Defence Force ditches European helicopters

  Australian Defence Minister Peter Dutton announced Friday Canberra is seeking to buy up to 40 Sikorsky UH-60M Black Hawk battlefield helicopters to replace the Australian Defence Force's fleet of NH Industry MRH 90 Taipan Multi Role Helicopters.

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  17 janvier 2019 | International, C4ISR, Sécurité

  DARPA Explores New Computing Architectures to Deliver Verifiable Data Assurances

  Program seeks to create new software and hardware architectures that provide physically provable assurances around data security and privacy Whether a piece of information is private, proprietary, or sensitive to national security, systems owners and users have little guarantees about where their information resides or of its movements between systems. When a user enters information on a phone, for example, it is difficult to provably track that the data remains on the phone or whether it is uploaded to a server beyond the device. The national defense and security communities are similarly left with few options when it comes to ensuring that sensitive information is appropriately isolated, particularly when it's loaded to an internet-connected system. “As cloud systems proliferate, most people still have some information that they want to physically track – not just entrust to the ether,” said Walter Weiss, DARPA program manager. “Users should be able to trust their devices to keep their information private and isolated.” Keeping a system completely disconnected from all means of information transfer is an unrealistic security tactic. Modern computing systems must be able to communicate with other systems, including those with different security requirements. Today, commercial and defense organizations often leverage a series of air-gaps, or breaks between systems, to keep the most sensitive computing devices and information secure. However, interfaces to such air-gapped systems are typically added in after the fact and are exceedingly complex, placing undue burden on systems operators as they implement or manage them. To create scalable solutions that provide safe, verifiable methods of tracking information and communications between systems, DARPA launched the Guaranteed Architecture for Physical Security (GAPS) program. The goal of GAPS is to develop hardware and software architectures that can provide physically provable guarantees around high-risk transactions, or where data moves between systems of different security levels. DARPA wants to ensure that these transactions are isolated and that the systems they move across are enabled with the necessary data security assertions. The intended outputs of this program are hardware and software co-design tools that allow data separation requirements to be defined during design, and protections that can be physically enforced at system runtime. GAPS is divided into three research areas that will address: 1) the creation of hardware components and interfaces; 2) the development of software co-design tools; and, 3) the integration of these components and tools, as well as their validation against exemplar Department of Defense (DoD) systems. The new hardware components and interfaces are designed to provide system designers with a library of hardware tools to securely isolate data during transactions. The software co-design tools could someday allow developers to easily employ GAPS hardware components without requiring changes to their existing development processes and frameworks. Finally, the integration and validation of the hardware and software architectures on DoD systems could be used to demonstrate the capability and maturity of the GAPS approach for the kinds of problems DoD system integrators currently face, and expect to see in the future. Commercializing the resulting technologies is also an objective of the program. The verifiable security properties created under GAPS may also help create safer commercial systems that could be used for preserving proprietary information and protecting consumer privacy. GAPS is part of the second phase of DARPA's Electronics Resurgence Initiative (ERI) - a five-year, upwards of $1.5 billion investment in the future of domestic, U.S. government and defense electronics systems. Under ERI Phase II, DARPA is exploring the development of trusted electronics components, including the advancement of electronics that can enforce security and privacy protections. GAPS will help address the DoD's unique requirements for assured electronics while helping to move forward ERI's broader mission of creating a more robust, secure and heavily automated electronics industry. DARPA will hold a Proposers Day on January 23, 2019 from 9:00am to 2:30pm (EST) at the DARPA Conference Center, located at 675 North Randolph Street, Arlington, Virginia 22203, to provide more information about GAPS and answer questions from potential proposers. For details on the event, including registration requirements, please visit: http://www.cvent.com/events/gaps-proposers-day/event-summary-34cbadc0ab2248bb860db3df8223a2f6.aspx. A Broad Agency Announcement that fully describes the GAPS program structure and objectives can be found here: https://www.fbo.gov/index?s=opportunity&mode=form&id=cfecfe762954149924ec59c95ec6a7b8&tab=core&_cview=1. https://www.darpa.mil/news-events/2019-01-16