24 février 2021 | International, Terrestre

Germany orders Israel’s Trophy active protection system for its Leopard 2 tanks

The German military plans to successively equip its tanks with active protection systems in light of the threat posed by modern anti-tank weapons.

https://www.defensenews.com/global/europe/2021/02/23/germany-orders-israels-trophy-active-protection-system-for-its-leopard-2-tanks/

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  • Here’s the No. 1 rule for US Air Force’s new advanced battle management system

    10 juillet 2019 | International, Aérospatial, Autre défense

    Here’s the No. 1 rule for US Air Force’s new advanced battle management system

    By: Valerie Insinna LE BOURGET, France, and WASHINGTON — The U.S. Air Force has started work on a data architecture for its Advanced Battle Management System, the family of platforms that will eventually replace the E-8C JSTARS surveillance planes. But the “biblical” rule for the program, according to the service's acquisition executive Will Roper, is that “we don't start talking platforms until the end,” he told Defense News at the Paris Air Show in June. “It is so easy to start talking about satellites and airplanes and forget what ABMS is going to have to uniquely champion, which is the data architecture that will connect them,” Roper explained. “I'm actually glad we don't have big money this year because we can't go build a drone or a satellite, so we've got to focus on the part that's less sexy, which is that data architecture,” he said. “We're going to have to do software development at multiple levels of classification and do it securely. All of those are things that are hard to get people energized about, but they're going to be the make-or-break [undertakings] for this program.” Some initial work has begun on identifying the requirements for ABMS data architecture. The service in March named Preston Dunlap, a national security analysis executive at Johns Hopkins University Applied Physics Laboratory, as the program's “chief architect.” Dunlap will be responsible for developing the requirements for ABMS and ensuring they are met throughout the menu of systems that will comprise it. The Air Force Warfighter Integration Center, or AFWIC — the service's planning cell for future technologies and concepts of operation — provided feedback to Dunlap about how ABMS should work, Roper said. The Air Force is still deliberating what ABMS will look like in its final form, although officials have said it will include a mix of traditional manned aircraft, drones, space-based technologies and data links. The effort was devised as an alternative to a replacement for the E-8C Joint Surveillance Target Attack Radar System. While the service first considered a traditional recapitalization program where it would buy new JSTARS aircraft equipped with more sophisticated radars, leaders ultimately backed the more ambitious ABMS proposal, believing it to be a more survivable capability. But defense companies are hungry for more information about the platforms that will comprise ABMS, seeing the opportunity to develop new systems or upgrade legacy ones as a major potential moneymaker. Once the service has defined an ABMS data architecture — which Roper believes will occur before the fiscal 2021 budget is released — it will need to form requirements for the data that will run through and populate it as well as the artificial intelligence that automatically sorts important information and passes it to users. “Maybe one sensor needs to be able to fill a gap that others are creating,” he said. “We're going to have to look at requirements at a systems level and tell satellites that you need to be able to provide this level of data at this refresh rate. UAVs, you need to be able to do this rate and so on and so forth. Once we do that, then we'll be in the traditional part of the acquisition, which will be building those satellites, building those UAVs.” The Air Force intends to conduct yearly demonstrations throughout this process, the first of which will involve “ad hoc mesh networking,” which will allow platforms to automatically begin working together and sharing information without human interference. By FY21, full-scale prototyping could start, he said. In the commercial sector, where devices can be seamlessly linked and monitored over the internet, this concept is known as the internet of things. But that construct — where companies build technologies from the get-go with open software — is difficult to replicate in the defense world, where firms must meet strict security standards and are protective of sharing intellectual property that could give competitors an edge. “Openness in the internet of things makes sense because you can monetize the data,” Roper said. “That's not going to exist for us, so we're going to have to have a contracting incentive that replicates it. The best theory we have right now is some kind of royalty scheme that the more open you are and the more adaptation we do on top of your system, the more you benefit from it.” The service wants to hold a series of industry days to see whether such a construct would be appealing to defense companies, and how to structure it so that it will be fair and profitable. One unanswered is how to incentivize and compensate defense firms that build in new software capability. “If you create the system that allows us to put 100 apps on top of it, you benefit differently than if we can only put one. But the details are going to be difficult because maybe that one app is super important,” Roper said. “But if we can't replicate profit and cash flow on which their quarterlies depend, then they're going to have to go back to the old model of saying they are for open [architecture] but secretly giving you closed.” https://www.defensenews.com/digital-show-dailies/paris-air-show/2019/07/09/rule-no1-for-air-forces-new-advanced-battle-management-system-we-dont-start-talking-platforms-until-the-end/

  • 5 technology trends driving an intelligent military

    6 juillet 2018 | International, C4ISR

    5 technology trends driving an intelligent military

    By: Antti Kolehmainen The rise of non-traditional actors, cyberattacks and state-sponsored subversion is challenging democratic governance and creating an increasingly volatile operational and security environment for defense agencies. To address these threats, military organizations must be able to operate seamlessly and intelligently across a network of multinational partners. This year's Accenture Technology Vision identified five trends that are essential components of any intelligent defense organization: Citizen AI, extended reality, data veracity, frictionless business and Internet of Thinking. Private AI: training AI as an effective troop member Harnessing AI's potential is no longer just about training it to perform a specific task: AI will increasingly function alongside people as a full-fledged member of a team. In the high-stakes world of defense, it's especially important that AI systems act as trustworthy, responsible and efficient colleagues. AI could have a major impact for military organizations, including defense logistics and cybersecurity. An adversary equipped with advanced AI capabilities will not wait for its enemies to catch up technologically before launching an offensive. AI's ability to process and analyze vast amounts of data has significant implications across the Observe, Orient, Decide, Act (OODA) loop. From augmenting our ability to detect new threats to analyzing countless variables, AI could transform surveillance and situational awareness. Extended Reality: The end of distance Extended reality (XR), which includes virtual reality (VR) and augmented reality (AR), is the first technology to relocate people in both time and place—effectively eliminating distance. For the defense sector, the ability to simulate and share a common view of an operational theatre is immensely powerful. Recently, Accenture created a mixed reality proof of concept using Microsoft HoloLens and gaming engine Unity that provides military personnel with an interactive map showing real-time location and status data for troops and resources on the ground. With a simple command, a user can order reinforcements or supplies, or create and test different scenarios through a mixed reality interface. XR technology can also enhance operational command capabilities in the field. For example, AR goggles could provide dashboards and data visualizations where and when they are needed – such as at an operating base. XR also will have major implications for training, allowing soldiers and pilots to engage in highly realistic combat simulations. Data veracity: the importance of trust As defense organizations become increasingly data-driven, inaccurate and manipulated information is a persistent and serious threat. Agencies can address this vulnerability by building confidence in three key data-focused tenets: provenance, or verifying data from its origin throughout its life cycle; context, or considering the circumstances around its use; and integrity, or securing and maintaining data. The ability to trust and verify the data that flows between multinational partners is critically important. Organizations must be capable of delivering the right data to the right recipient, at the right time – which can only be accomplished by radically reorienting how data is shared across today's armed forces. Today's vertical approach involves passing information up and down the command stack of a nation's military. In contrast, multinational military operations demand that information is also shared horizontally across the forces of different nations and partners. This shift requires a profound change in technology, mindset and culture within agencies. Frictionless defense: built to partner at scale Our recent survey found that 36 percent of public service leaders report working with twice as many strategic partners than two years ago. And when partnerships between industry, academia and military organizations are horizontally integrated and technology-based, they can expand faster and further than ever before. But legacy systems weren't built to support this kind of expansion, and soon, outdated systems will be major hindrances to collaboration. With this in mind, defense organizations must develop new IT architectures to reduce complexity. Agile IT systems will allow innovation to flourish, unimpeded by internal politics and employee resistance. A modern IT architecture will push organizations to clearly define the services they offer and turn each service into a potential enabler of collaboration. The Internet of Thinking: intelligent distributed defense capabilities Today's technology infrastructures are designed around a few basic assumptions: enough bandwidth to support remote applications, an abundance of computing power in a remote cloud and nearly infinite storage. But the demand for immediate response times defies this approach. Recent projections suggest that by 2020, smart sensors and other Internet of Things devices will generate at least 507.5 zettabytes of data. Trying to manage the computational “heavy-lifting” offsite will become limiting. The need for real-time systems puts hardware back in focus: special-purpose and customizable hardware is making devices at the edge of networks more powerful and energy efficient than ever before. Public service organizations are taking note: our survey indicates 79 percent of leaders believe it will be very critical over the next two years to leverage custom hardware and accelerators to meet new computing demands. The next generation of military strategies ride on pushing intelligence into the physical world. Defense organizations have to embrace new operating models to enable high-speed data flows, harness the potential of distributed intelligence and successfully neutralize threats. The defense sector is challenged to respond to new types of threat, political volatility and even new combat arenas, and acquiring new technology capabilities is a strategic imperative. Delivering greater situational awareness and the ability to respond rapidly to unpredictable adversaries requires investments in AI, edge computing and other emerging technologies. Likewise, today's information architectures will need to be redesigned to collaborate quickly, effectively and securely. Antti Kolehmainen is managing director, defense business service global lead at Accenture. https://www.c4isrnet.com/opinion/2018/07/05/5-technology-trends-driving-an-intelligent-military

  • Serbia highlights importance of Chinese defence equipment | Reuters

    23 octobre 2023 | International, Terrestre, C4ISR

    Serbia highlights importance of Chinese defence equipment | Reuters

    Chinese military equipment has strengthened the Serbian armed forces significantly, its deputy prime minister told Chinese state media, in particular an air-defence system and drones.

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