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  September 20, 2018 | International, Aerospace, C4ISR

  The new critical capabilities for unmanned systems

  By: Ryan Hazlett With unmanned systems becoming ever more ubiquitous on the battlefield, the question of where unmanned systems and accompanying technologies, such as autonomy, are headed is in the limelight. First, to better understand the future direction of the unmanned field, it is instructive to note some important trends. The number of uses for unmanned systems on the battlefield has increased significantly in the post-9/11 conflicts in Afghanistan and Iraq, with the U.S. Army's Shadow® Tactical Unmanned Aircraft System (UAS) program having logged nearly 1 million flight hours in those areas of operation. The proliferation and commoditization of UAS capabilities is a global phenomenon, as demonstrated by both the widespread possession of UAS hardware as well as the ability to indigenously produce at least rudimentary unmanned systems. Growth of the nascent commercial unmanned systems market has added to this trend, as has the government's emphasis on a greater use of commercial off-the-shelf solutions. But while commoditization has occurred at the platform level — particularly among smaller airborne vehicles — overcoming the challenges of adversaries employing anti-access area-denial (A2AD) military strategies requires far more capable solutions than simply having hordes of cheap drones. In this environment, how will U.S. and allied forces retain their advantage? Critical capabilities and technologies are necessary. These include the ability to dynamically swarm, conduct automatic target recognition, possess on-board autonomy and artificial intelligence, as well as have interoperable communications capabilities. First, future platforms — manned or unmanned — will increasingly need better collaboration between the sensors and payloads they carry and with allied forces. This growing level of collaboration and autonomy is already happening. Driven by advances in onboard computing power, as well as smaller and less power-intensive sensors and advanced algorithms, tomorrow's unmanned systems will be able to better communicate among themselves and make their own decisions on basic functions, such as navigation, to enable dynamic swarming or to identify areas of interest during intelligence, surveillance and reconnaissance missions. Next, systems that can seamlessly operate and communicate with other military platforms across domains will be the most successful. Gone are the days when largely mission-specific platforms dominated the force composition. With platforms needing to be highly capable to meet A2AD threats, a mission-specific approach will simply be unaffordable. Instead, increasingly we see platforms that can act as highly capable but also flexible “trucks” that can easily swap payloads designed for specific missions, while the overall platform serves many needs. Multi-domain abilities for conducting command and control (C2) and other tasks will also be vital as technologies move from remote-control type operations to more of a “man monitoring the loop” concept. Technological progress in providing secure communications and a level of onboard artificial intelligence are necessary enablers, as will be data fusion technologies. Initial versions of these multi-domain C2 solutions for unmanned systems are already here. For example, the U.S. Army has years of experience operating the Universal Ground Control Station and One System Remote Video Terminal that allow soldiers in tactical units to access overhead sensor video from unmanned aircraft. Next-generation, multi-domain control and collaboration technologies to take the concept to a new level are mature, allowing a single user to simultaneously operate multiple vehicles and sensors, including the ability to control numerous types of aircraft and other multi-domain unmanned systems from different manufacturers. In addition, these systems are ready to incorporate the best available software applications as “plug-ins” to an open architecture. Industry is also investing in additional technology to ensure that tomorrow's unmanned systems continue to meet U.S. and allied needs. Among them are advanced power generation, systems with improved maneuverability, and vehicles designed to deploy with lighter support and operational footprints. Done smartly, the application of technologies such as autonomy can be better integrated into unmanned systems to enable improved navigation, intelligence, surveillance and reconnaissance, as well as other tasks, while leaving a man in the loop for the use of weapons. Moreover, defense users can rightly leverage the commercial sector's work on areas such as self-driving cars and unmanned taxis that are at the forefront of artificial intelligence for navigation. But while the military can leverage such commercial developments, there are, and will remain, cyber hardening, survivability and other specific requirements that are unique to the defense marketplace and require experienced industrial partners with deep knowledge of national security needs. The ongoing move away from only long-term programs of record to the embrace of the “buy, try, and decide” model, as well as greater uses of funded prototyping, is helping to fast-track many of these promising new technologies. Companies can now match their internal research and development funding to move that innovation along and ensure the United States and its allies remain at the forefront of unmanned technologies. Ryan Hazlett is senior vice president at Textron Systems. https://www.c4isrnet.com/thought-leadership/2018/09/19/the-new-critical-capabilities-for-unmanned-systems

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  December 20, 2018 | International, C4ISR

  DARPA Awards Six Teams During Final Spectrum Collaboration Challenge Qualifier

  On December 12, DARPA held the second preliminary event of the Spectrum Collaboration Challenge (SC2) – the world's first collaborative machine-intelligence competition to overcome spectrum scarcity. Fifteen teams represented by members from across the academic, commercial and defense landscapes gathered at Johns Hopkins University Applied Physics Laboratory (APL) to pit their intelligent radio designs against each other in a head-to-head competition. At the event's conclusion, six of the eight top-scoring teams walked away with $750,000 each in prize money. While not all competitors received interim prizes, all 15 teams have an opportunity to move on to the next stage and compete in the 2019 Spectrum Collaboration Challenge grand finale, which will be held in conjunction with MWC19 Los Angeles, in partnership with CTIA, on October 23, 2019. The six prize-winning teams from the second preliminary event are: Zylinium, a team of independent researchers MarmotE from Vanderbilt University Sprite from Northeastern University Erebus, a team of independent researchers Gator Wings from University of Florida SCATTER from IDLab, an imec research group at Ghent University and University of Antwerp, and Rutgers University "During the second preliminary event we witnessed a technological shift," said Paul Tilghman, the DARPA program manager leading SC2. "For the first time, we saw autonomous collaboration outperform the status quo for spectrum management." Starting in early December, each team's radio participated in 105 matches against competitors in the Colosseum, a massive RF testbed that was developed specifically for SC2. The matches were held in a round-robin fashion where each radio network – working in groups of threes, fours or fives – had multiple opportunities to compete against every other radio design in the competition. Roughly 400 matches were held in total to determine the final team rankings and the prize recipients. During the PE2 matches, teams were put through six different RF scenarios designed to mimic the challenges that collaborative, autonomous radios will face in the real world. These scenarios challenged the radios to collaboratively mitigate interfering with an incumbent radio system, sense and adapt to the spectrum demands of high-traffic environments, handle the data demands of the connected soldier of the future, and beyond. Each scenario was designed to pressure test various elements of the teams' approaches and, in particular, their ability to successfully collaborate with the other radios operating within the same environment. “The six different scenarios were closely aligned to actual situations that our defense and commercial systems face in the field. The Wildfire scenario, for example, replicates the complex communications environment that surrounds an emergency response situation, while the Alleys of Austin scenario was designed to mimic what's needed to help dismounted soldiers navigate and communicate as they sweep through an urban environment. This real-world relevance was critical for us as we want to ensure these technologies can continue to develop after the event and can transition to commercial and/or military applications,” said Tilghman. The sixth scenario of the competition was used to determine the six prize winning teams. This scenario explored the essential question of the SC2 competition: can the top teams' collaborative SC2 radios outperform the status quo of static allocation? Each of the six teams that received awards at PE2 demonstrated that their radio was capable of carrying more wireless applications without the aid of a handcrafted spectrum plan, while simultaneously ensuring four other radio networks operating in the same area had improved performance. In short, each of these six radio networks demonstrated the autonomous future of the spectrum. To aid with decision making, teams applied AI and machine learning technologies in various ways. Some leveraged the current generation of AI technologies like deep learning, while others used more conventional optimization approaches. There were also a few teams that used first wave, rule-based AI technologies. “We're very encouraged by the results we saw at PE2. The teams' radios faced new and unexpected scenarios but were still able to demonstrate smart, collaborative decision making. PE2 showed us that AI and machine learning's application to wireless spectrum management creates a very real opportunity to rethink our current century-old approach,” said Tilghman. The competition now enters its third year and moves closer to the finale, which will be held at one of the country's largest annual technology and telecommunications shows – MWC19 Los Angeles. More than 22,000 attendees from the broad mobile ecosystem and adjacent industry sectors will convene at this three-day event to discuss the current opportunities and future trends shaping the industry. The SC2 championship event will be held on the keynote stage of MWC19 Los Angeles on October 23, 2019. At the conclusion of SC2's finale, three teams will be awarded $2 million, $1 million and $750,000, respectively, for first, second and third place. The real prize, however, will be the promise of a more efficient wireless paradigm in which radio networks autonomously collaborate to determine how the spectrum should be used moment-to-moment, helping to usher in an era of spectrum abundance. For more information about DARPA's Spectrum Collaboration Challenge, please visit: https://spectrumcollaborationchallenge.com/ https://www.darpa.mil/news-events/2018-12-19

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  October 21, 2020 | International, Land, C4ISR

  Britain unveils strategy to gain a technological advantage over adversaries

  Andrew Chuter LONDON — British Defence Secretary Ben Wallace has announced a new science and technology strategy aimed at competing with potential adversaries. “We are in a very real race with our adversaries for technological advantage. What we do today will lay the groundwork for decades to come. Proliferation of new technologies demands our science and technology is threat-driven and better aligned to our needs in the future,” Wallace said Oct. 19 during a visit to the British Army's Salisbury Plain training ground in the west of England ahead of a war-fighting experiment there. The latest strategy launch comes weeks after the MoD rolled out a new integrated operational concept to shape how Britain adapts its future military effort to the changing security threat posed by the likes of China and Russia. With the rollout of a defense and security review fast approaching, the MoD has been revealing busy some of the key supporting strategies that will likely underpin what is being touted as Britain's most fundamental military shakeup in generations. Both the science and technology strategy and the integrated operational concept are key elements of an integrated defense and security review planned to link defense, security, foreign policy and international development aid. The review, expected by the end of November, is meant to signal big cuts to conventional capabilities as the Conservative government invests in high-tech areas like space, cyberspace, artificial intelligence and undersea capabilities. The initial response from industry appears positive. “I welcome this MoD innovation initiative and hope that it translates into more conversations and activity with industry,” said Steve Beeching, the managing director of the U.K. arm of American communications company Viasat, which has a growing defense presence in Britain. "We want to work collaboratively in supporting the rapid implementation of future mission capabilities to empower our defense and security forces in the constantly evolving adversarial environment.” Future military development would focus on five emerging technology areas that have posed the most significant enduring capability challenge, according to the new S&T strategy document. Technology areas listed are: Pervasive, full-spectrum, multidomain intelligence, surveillance and reconnaissance. Multidomain command and control, communications, and computers. Improvement of the U.K.'s ability to compete against adversaries below the threshold of conventional conflict while addressing vulnerabilities, especially in the information environment. Develop systems to target adversaries in new ways across all domains. Generate affordable, survivable capabilities that can rapidly address evolving threats and can operate within a denied electromagnetic environment. “They have been recognized as the key drivers for science and technology and research and development within the MoD," the document read. "The Department will continue to have an enduring requirement to maintain investment in science and technology capabilities and programs beyond these.” The country noted it isn't dismissing other equipment areas; it has also pledged to invest in the areas of cyberspace; chemical, biological and radiological technology; novel weapons; and system of systems integration. The document does not mention how Britain will afford the strategy, but it does talk about new approaches to funding. The MoD said it plans to invest in new, riskier activities in hopes of developing technologies by using demonstrators, experimentation and better exploitation processes. It also hopes to make rapid progress on the strategy by the end of the first year. The progress includes creating a strategy implementation plan, giving clear policy positions on the critical capabilities that the government must sustain, providing direction to academia and industry on priority areas, and revitalizing the government's technology incubation program. https://www.defensenews.com/global/europe/2020/10/19/britain-unveils-strategy-to-gain-a-technological-advantage-over-adversaries/