Nouvelles

by Gabriel Dominguez & Matteo Scarano The Republic of China Navy (RoCN) has announced that construction work on Taiwan's first locally designed and developed diesel-electric attack submarine (SSK) will begin before the end of November. The RoCN said in a 2 November statement that the island's new submarine-building facility, located in the southern port city of Kaohsiung, will become operational this month, with local naval shipbuilder CSBC Corporation expected to hold a ceremony to mark the beginning of production of the first of eight planned submarines. According to Taiwanese media, the first boat is slated for completion in the third quarter of 2024, with sea trials and commissioning scheduled for 2025. The boats will be built under the Indigenous Defence Submarine Programme, also known as the Hai Ch'ang programme. CSBC Corporation (formerly the China Shipbuilding Corporation) is Taiwan's largest shipbuilder and is partly owned by the state. It had broken ground on the new facility in May 2019 in a ceremony presided over by Taiwanese President Tsai Ing-wen, who was quoted at the time as saying that the facility had become necessary because international submarine manufacturers “no longer dared sell” Taiwan submarines because of pressure from China, which regards Taiwan as a break-away province. As Janes reported, the corporation – and its development partner, the National Chung-Shan Institute of Science and Technology (CSIST) – were awarded a contract in 2017 to design and construct the submarines. The project is supported by a submarine development centre that CSBC inaugurated in 2016. https://www.janes.com/defence-news/news-detail/taiwan-to-start-building-first-indigenous-submarine-before-end-of-november

Andrew Eversden WASHINGTON — The U.S. Army's Network Cross-Functional Team released a solicitation outlining capabilities it's interested in acquiring as part of future tactical network tools. The broad agency announcement was posted last week on beta.sam.gov. It lays out future research areas the Army's tactical network modernization team made up of the NetworkCFT and Program Executive Office Command, Control, Communications-Tactical, wants to explore as part of future capability sets — new network tools it's delivering every two years. “The Network-CFT is focused on integration of tactical network efforts and ensures disciplined innovation as it works with speed and precision,” the announcement read. “The Network-CFT is conducting experimentations and demonstrations of proven joint and special operations solutions, commercial-off-the-shelf (COTS) technology, and Non-developmental items (NDIs) with operational units to inform future requirements.” The tactical network modernization team is seeking technology that aligns with its four lines of effort for upgrading the network: unified network; common operating environment; joint interoperability/coalition accessible; and command post mobility and survivability. All proposed technologies must be at a technology readiness level of six, the announcement read, meaning they're ready to be demonstrated as a prototype in an environment similar to the field. For the unified network effort, the Network CFT-PEO C3T team are seeking “available, reliable and resilient network that ensures seamless connectivity in any operationally contested environment.” Capability Set '23, the next iteration of tactical network tools, is focused on increasing network capacity and reducing latency. Unified network includes capabilities such as advanced waveforms to improve resiliency. The common operating environment line of effort “is interested in the means of ensuring a simple and intuitive single-mission command suite that is easily operated and maintained by Soldier.” The joint interoperability/coalition accessible team is looking for tools that can “more effectively” interact, both technically and operationally, with joint and coalition partners. The final line of effort, command post mobility and survivability, is interested in means of improving the “deployability, reliability, mobility and survivability” of command posts. The Army's current vision for future command posts are those that can be quickly set up and torn down, while also having low electromagnetic signatures to avoid detection by adversaries. “Certainly, any time that you adopt a lot of commercial technologies you start to look at how your signature is on the battlespace, so I really look to industry and how they can bring some of their best ideas and technologies for how we can potentially do spectrum obscuration, as well as decoys so we can minimize our footprint on the battlefield,” said Brig. Gen. Rob Collins, commanding general of PEO C3T. The Army's announcement is valid through the end of October 2025. https://www.c4isrnet.com/battlefield-tech/it-networks/2020/11/04/us-armys-tactical-network-modernization-team-requests-industry-pitches-for-future-capabilities/

Nathan Strout WASHINGTON — The U.S. Air Force Research Laboratory has opened a lab focused on developing materials for new deployable space structures. Construction on the Deployable Structures Laboratory, or DeSel, began in December 2019 and opened Oct. 29, 2020. Scientists and engineers moving into the $4 million lab at Kirtland Air Force Base, New Mexico, will continue the work of the Spacecraft Component Technology Center of Excellence, which has a history of developing spacecraft structure materials. DeSel contains specialized equipment and a climate-controlled, vibration-isolated laboratory capable of testing spacecraft structures up to 20-by-15 meters, allowing AFRL to further research and develop high-strain composite materials. “I'm excited to have a facility that was specifically built for testing novel deployable space structures,” Benjamin Urioste, research engineer and lead for the Integrated Structural Systems team, said in a statement. “With the push toward hybrid architecture and smaller satellites, high packing efficiency structures and the ability to bring large satellite capability to small satellites is more important than ever.” “This new class of high strain composite enabled structures requires new ground test facilities,” he added. “Satellite deployments are nerve-wracking, one-shot endeavors and the high-fidelity ground testing that will take place in the DeSel is critical to ensuring on-orbit success.” Spacecraft Technologies Division chief Mark Roverse said the structures, made possible by high strain composites, "will enable new mission paradigms for the U.S. Space Force.” “AFRL has led development of high strain composites for deployed spacecraft structures, and we are excited to see the new mission capabilities that are being enabled,” Roverse added. One spacecraft in development that will benefit from these new structures is AFRL's Space Solar Power Incremental Demonstration and Research project. With the SSPIDR project, the lab wants to build a spacecraft capable of collecting solar energy on orbit and then transmitting that energy to forward-operating bases via radio frequency. Northrop Grumman was awarded a $100 million contract to support space-based experiments informing SSPIDR's development. The Space Force is testing that technology on the X-37B, the service's secretive spacecraft, but DeSel's work will provide the materials needed to build the SSPIDR craft. “This innovative research will help us to deliver the essential energy our warfighters need at the right place at the right time,” explained Col. Eric Felt, director of the AFRL's Space Vehicles Directorate. “Some of the first structures that we look forward to testing in this new lab are those required for our Space Solar Power Incremental Demonstration and Research (SSPIDR) project, one of our top priority programs.” https://www.c4isrnet.com/battlefield-tech/space/2020/11/04/air-force-research-laboratory-open-new-space-lab/

By: Jen Judson WASHINGTON — Beginning early next year, the Pentagon will host the first opportunity for industry to demonstrate counter-drone technology aimed at small systems, the next step in a plan to test out new capabilities twice a year at common test ranges, according to Army officials in charge of the effort. Pentagon leaders approved in late September a set of requirements to help counter small drones, laying a path for how industry can develop technology to plug into a single command-and-control system. The Joint Counter-Small Unmanned Aircraft Systems Office, or JCO, kicked off the pursuit with an industry open house Oct. 30. The defense secretary delegated the Army in November 2019 to lead the effort to consolidate the wide range of counter-small unmanned aerial system, or C-sUAS, capabilities into a select group of interim systems. Those systems have now been chosen, with the JCO turning its sights toward establishing an enduring collection of capabilities — while acknowledging that there's no silver bullet and that a layered approach is needed, using both kinetic and non-kinetic means, to defeat small drones. The JCO has identified three sites for common test ranges to conduct evaluation and testing of promising counter-drone technology, according to Col. Greg Soule, resources director for the Army's Rapid Capabilities and Critical Technologies Office. The RCCTO is supporting the JCO by helping identify material solutions for C-sUAS, and it is leveraging its work on directed-energy and high-power microwave technologies to roll into a solution. A decision memo on locations is awaiting approval by Army Vice Chief Gen. Joseph Martin. Soule said those locations will be shared “when the time is right.” The JCO also set up a working group to look into testing C-sUAS capabilities in an urban environment, according to Soule. To ensure the JCO is comparing apples to apples when it comes to counter-drone technology, it also stood up a working group with representatives across all the armed services to establish joint test protocols. That protocol is out for signature and should be in hand by Nov. 6. Additionally, Ellen Lord, the undersecretary of defense for acquisition and sustainment, has asked the JCO to look at the feasibility of establishing a single source for training targets “to help reduce costs, reduce lead times and streamline the waiver process,” Soule said. “All services already have sources for where they go now. So potentially we could find a way to find some synergies and efficiencies.” Industry interest Industry is eager to get technology in front of both the JCO and RCCTO. Many defense companies participating in the Association of the U.S. Army's annual virtual conference last month highlighted counter-drone capability. General Dynamics Mission Systems featured its recent partnership with Dedrone, a leader in drone detection and defeat technologies using machine-learning software, sensors and electronic attack methods. Lockheed Martin showcased its MoRFIUS C-sUAS capability that it is working on with the RCCTO. MoRFIUS uses high-power microwave technology in an aerial platform. That capability can be used to extend the range beyond current counter-drone defeat systems to defeat drone swarms. MoRFIUS is a recoverable and reusable technology. Leonardo DRS also highlighted its mobile counter-drone capability using Moog's Reconfigurable Integrated-weapons Platform turret with multiple kinetic effectors, different electro-magnetic and infrared sensors, an onboard radar, and electronic warfare technologies. Raytheon, which has a foothold in the C-sUAS market with its Coyote Block II kinetic effector and its Ku-Band Radio Frequency System, emphasized its track record and upgrades to the system. The industry open house had roughly 500 industry representatives tune in. The JCO will select industry applicants to show off their capabilities at the first demo, which is to take place in the second quarter of fiscal 2021. At the demonstration, the JCO will provide instrumentation and threat surrogates as well command-and-control elements. Industry participants will need to bring technology to defeat drones, said Adam Martin, who briefed industry on test ranges and protocols at the open house. There will be technology insertion points in the enduring architecture after each demonstration that address gaps, he added. https://www.defensenews.com/unmanned/2020/11/04/heres-how-the-pentagon-will-test-industrys-counter-drone-tech-for-an-enduring-capability/

Andrew Eversden WASHINGTON — A new broad agency announcement shows that the Pentagon's top research arm wants to work with industry to develop technology that can track adversarial influence operations across social media platforms. The announcement from the Defense Advanced Research Projects Agency (DARPA) for a project called INfluence Campaign Awareness and Sensemaking (INCAS) will use an automated detection tool to unveil influence operations online. “INCAS tools will directly and automatically detect implicit and explicit indicators of geopolitical influence in multilingual online messaging to include author's agenda, concerns, and emotion,” the BAA reads. The BAA comes as the federal government seeks solutions to defend against foreign influence campaigns, particularly surrounding political campaigns, that aim to sow discord among Americans with inflammatory messages. “The US is engaged with its adversaries in an asymmetric, continual, war of weaponized influence narratives. Adversaries exploit misinformation and true information delivered via influence messaging: blogs, tweets, and other online multimedia content. Analysts require effective tools for continual sensemaking of the vast, noisy, adaptive information environment to identify adversary influence campaigns,” the BAA reads. Through the project, DARPA seeks to improve upon current social media tools to track influence operations. The current tools, the solicitation reads, requires a major manual effort in which analysts have to sift through “high volumes” of messages and decide which ones are relevant and gaining traction, using tools for digital marketing. “These tools lack explanatory and predictive power for deeper issues of geopolitical influence,” the solicitation reads. “Audience analysis is often done using static, demographic segmentation based on online and survey data. This lacks the flexibility, resolution, and timeliness needed for dynamic geopolitical influence campaign detection and sensemaking.” The program has five technical areas. Technical area one focuses on using automated influence detection to enable analysts to analyze influence campaigns. The second area will “dynamically segment" the population that is responding to influence campaigns, and identify “psychographic attributes relevant to geopolitical influence,” such as “worldviews, morals and sacred values.” The INCAS tool's third technical area will assist analysts in linking influence indicators and population response over time across several platforms, in order to capture influence campaigns as they evolve over time. The fourth area will create infrastructure to provide data feeds from online sources to the other three technical areas, and the final technical area will conduct technology evaluations and will not be competed as part the the BAA. DARPA expects multiple awards for technical areas one and two, and single awards for technical areas three and four. Abstracts are due Nov. 17, 2020, with proposals due Jan. 8, 2021. Awards will be made around July 2012 using standard procurement contracts or Other Transaction Agreements. https://www.c4isrnet.com/artificial-intelligence/2020/11/03/pentagon-research-office-wants-innovative-tools-to-spot-influence-campaigns/

By: Joe Gould WASHINGTON — As results for key congressional races and the presidency continue to roll in, several Senate Armed Services Committee leaders are still battling tough races. But here is what we do know, as of mid-morning Thursday. This story will be updated as results come in: • Georgia Republican Sen. David Perdue, the chairman of the Seapower Subcommittee, is leading in his race against Democrat John Ossoff, potentially denying Democrats what would have been a vital pickup for seizing control of the Senate. It's also too soon to call the race between Vice President Joe Biden and President Donald Trump for the state's 16 electoral votes. Democratic hopes of controlling the Senate for the first since 2015 appear to be slipping. To win the Senate, Democrats would have to gain three seats if Biden prevails against Trump, or four seats if Trump wins the election. • Senate Military Personnel Subcommittee Chairman Thom Tillis, R-N.C., led challenger Cal Cunningham by 96,000 votes and declared victory Wednesday, but Cunningham refused to concede while more than 117,000 absentee ballots were outstanding. • Senate Readiness and Management Support Subcommittee Chairman Dan Sullivan, R-Alaska, on Thursday morning appeared to have a 60,000-vote lead on Independent challenger Al Gross, with only half the votes counted. However, Alaska's tally is expected to take days as officials count mail-in ballots. • Sen. Joni Ernst, R-Iowa, had a similarly tough race but denied Democrats what would have been a key pickup for seizing control of the Senate. Ernst, the Emerging Threats and Capabilities Subcommittee chair and a member of Senate Republican leadership, is the first female combat veteran elected to Congress. • Michigan Democrat Sen. Gary Peters, the ranking member on the Emerging Threats and Capabilities Subcommittee, prevailed Wednesday night in a razor-tight race against businessman and Iraq war veteran John James. Hours after Biden defeated Trump in the state, Peters was roughly 60,000 votes ahead. • Senate Armed Services Committee Chairman Jim Inhofe, R-Okla., and ranking member Sen. Jack Reed, D-R.I., both won reelection handily, and if the Senate stays in Republican hands, they will almost certainly stay in their leadership roles. Senate Airland Subcommittee Chairman Tom Cotton, R-Ark., had no Democratic challenger and won reelection. Senate Cybersecurity Subcommittee Chairman Mike Rounds, R-S.D., also won. New Hampshire Democrat Sen. Jeanne Shaheen, another senior member of SASC, easily won a third term. All three were projected wins. • SASC Republican Sen. Martha McSally, the Air Force's first female fighter pilot to fly in combat, lost to Mark Kelly, an astronaut and retired Navy captain, in Arizona. She has yet to concede, however. • SASC Democrat Sen. Doug Jones, D-Ala., lost decisively to Republican opponent Tommy Tuberville. • House Armed Services Committee Chairman Adam Smith, D-Wash., soundly defeated his Republican challenger, while two lead Republican contenders to replace Rep. Mac Thornberry, R-Texas, as ranking member ― Reps. Mike Turner of Ohio and Mike Rogers of Alabama ― also won reelection. • Two Democratic freshmen on HASC ― Reps. Kendra Horn of Oklahoma and Xochitl Torres Small of New Mexico ― lost seats that Democrats flipped in 2018. As of Wednesday afternoon, Rep. Anthony Brindisi, D-N.Y., was trailing his Republican challenger but refused to concede until absentee ballots are counted. • Nebraska Republican Rep. Don Bacon, a former Air Force one-star general whose policy positions sometimes clashed with Trump, carved out a reelection win. Because Nebraska awards its electoral votes by congressional district, NE-02 was also a crucial win for Biden. • Rep. Elissa Slotkin, D-Mich., won reelection. Slotkin, a former CIA analyst and Pentagon official, is at the top of an influential class of Democratic freshmen who have hands-on national security experience. Addressing supporters Wednesday, she reportedly said Biden will win in Michigan, but there may be a tumultuous transfer of power. https://www.defensenews.com/congress/2020/11/04/armed-services-committees-and-the-election-heres-what-we-know/

By Yasmin Tadjdeh When the Pentagon's Joint Artificial Intelligence Center was stood up in 2018, it was established to bring together the Defense Department's various AI programs and projects. Two years later, JAIC is pivoting to new mission sets, expanding its portfolio and more closely working with industry. The organization is currently working on 30 different projects across six different areas including joint warfighting operations, warfighter health, business process transformation, threat reduction and protection, joint logistics and joint information warfare. The center is built “around getting a spark going or getting a prototype or making a market in some way, and then handing it off for transition and scaling right to a customer,” said Nand Mulchandani, JAIC chief technology officer. “We're now starting to demonstrate great and exciting success across those products.” The joint warfighting mission initiative is the organization's flagship product and is looking at means to transform the way the United States will go to war, Mulchandani said during an exclusive interview with National Defense on his first day back as chief technology officer after serving as the acting head of JAIC. In late September, Marine Corps Maj. Gen. Michael Groen was confirmed by the Senate to serve as its director. “Our early products ... were really focused on kind of starter AI projects when it came to things like predictive maintenance and humanitarian assistance and disaster relief,” Mulchandani said. “The algorithms were not that hard. ... [However,] joint warfighting is the hardest problem at the DoD for us to take on.” The center is starting with technology such as human-machine teaming and decision support, Mulchandani said. “There are different ways of displaying information, about communicating information, about absorbing information,” he said. “We're spending time with our commanders, with training and education, etc., on how to absorb AI-enabled systems. And we want to do that in a very systematic, deliberate way where we start out with human-machine teaming, decision support, etc., and then work our way toward things like autonomy and others.” Joint warfighting will contribute to many Pentagon efforts such as joint all-domain command-and-control and the Air Force's Advanced Battle Management System program, he said. In May, the center awarded the joint warfighting operations initiative's prime contract to Booz Allen Hamilton. The contract has an $806 million ceiling. However, the center would likely not spend all of the funding because the entire budget of the JAIC over a couple of years is around $800 million, Mulchandani said during a recent briefing with reporters. Despite the center being gung-ho about the initiative, a continuing resolution for fiscal year 2021 — which began Oct. 1 — could have an outsized effect on joint warfighting programs, he noted. “What this really impacts ... is new starts, our ability to start a bigger new project that we have been potentially forecasting for starting with new FY ‘21 money,” he said. That will require some programs to be delayed. However, JAIC “will be receiving some money as part of the CR that will allow us to kick-start some of these new projects and things along the way, and then scale them ... when we get out of the CR mode” after a full-year appropriations bill is passed by Congress, he added. JAIC had been planning for a continuing resolution for some time, Mulchandani noted. “Many of our projects and products ... have actually been pre-funded through much of the money that we got in FY ‘20,” he said. “We have contracts and vendors and other things working months and months out into the new fiscal year. ... We're not in a crisis mode at all.” Meanwhile, JAIC's relationship with industry has continued to improve over the past two years, Mulchandani said. When it was first stood up, much attention was put on what some perceived to be a reluctance from Silicon Valley to work with the Pentagon. “A lot of people ask us [about] the whole thing with Google and Project Maven and whether that's still” a strained relationship, he said, referring to a 2018 incident where thousands of Google employees signed a letter objecting to the company's work with the Defense Department's Project Maven, a pathfinder AI effort to better analyze drone footage. Google subsequently backed out of the program. However, JAIC collaborates closely with the tech giant now, he said. “We're working with Google on a number of projects directly ... whether it be health or other types ... of products there,” he said. “We have contracts with Google that we're working on, but all the other bigger vendors as well.” Mulchandani said JAIC is working with all of the largest technology companies in Silicon Valley. “Name an AI vendor and we either have work going on with them, or they're involved in some way in some of the newer projects that we're doing,” he said. As the organization continues to work with industry, it is setting up initiatives to better take advantage of rapid acquisition, Mulchandani said. It currently has partnerships with a number of contracting vehicle organizations such as the General Services Administration, the Defense Innovation Unit and the Defense Information Systems Agency. Additionally, legislation is currently in front of Congress that could grant JAIC direct acquisition authority. “We obviously are very excited about that, [but] it's not done yet,” he said. “When the final vote happens and we do get it, we'll be very pleased and happy, and if we don't get it, well, we'll still be obviously continuing business with the partners that we have.” The center is also working on an acquisition effort called Project Tradewind which is a way for JAIC and the Defense Department writ large to better reach out to small companies, he said. Contract vehicles will be created that any organization across the department will be able to use to gain access to “teensy weensy, little companies that normally would hate to work with — or wouldn't know how to work with — the DoD,” Mulchandani said. “They can use Project Tradewind's acquisition frameworks to be able to interact with us in a very low overhead way.” During remarks at the Defense Department's Artificial Intelligence Symposium and Exposition, Secretary of Defense Mark Esper touted the work JAIC has done since its inception. “We have come a long way since establishing the JAIC two years ago,” he said. “Today, more than 200 talented civil service and military professionals work diligently to accelerate AI solutions and deliver these capabilities to the warfighter. From helping the Joint Force organize, fight and win at machine speed, to enhancing wildfire and flood responses through computer vision technology, the JAIC is utilizing every aspect of AI as a transformative instrument at home and abroad.” The center is lowering technical barriers to AI adoption by building a cloud-based platform to allow Defense Department components to test, validate and field capabilities with greater speed and at greater scale, he said. “The goal is to make AI tools and data accessible across the force, which will help synchronize projects and reduce redundancy, among many other benefits,” he said. JAIC is also working on ways to better train the Defense Department's acquisition workforce to buy AI products, Esper noted. The organization, in partnership with the Defense Acquisition University and the Naval Postgraduate School, was slated to launch an intensive six-week pilot course in October to train over 80 defense acquisition professionals of all ranks and grades. The trainees will learn how to apply AI and data science skills to operations, Esper said. The Defense Department plans to request additional funding from Congress for the services to grow the effort over time, he said. Dana Deasy, the Pentagon's chief information officer, noted JAIC's journey is still evolving. Meanwhile, the military is “generating positive momentum from our early days as AI pioneers toward a mature organization of AI practitioners,” he said. The center is now starting to deliver real AI solutions to the warfighter while leading the Defense Department in AI ethics and governance, he noted. Its budget is also growing. It went from $89 million in fiscal year 2019 to $268 million in fiscal year 2020, and the Pentagon plans to spend more than $1.6 billion over the next few years thanks to strong bipartisan support from Congress and Defense Department leadership, Deasy said. The organization is already generating early returns on investment in its mission initiatives, from predictive maintenance to business process transformation, Deasy noted. The center recently delivered an innovative engine health model predictive maintenance capability that is being utilized by Black Hawk helicopter maintainers from the U.S. Army's Special Operations Aviation Regiment, he said. Additionally, JAIC — via its business process transformation initiative — is delivering language-processing AI applications to the Washington Headquarters Service and the Pentagon's administrative and financial management teams, Deasy said. “These capabilities are automating the review of thousands of documents and memos for consistency, accuracy and compliance, thus increasing speed and efficiency while reducing manual, laborious processes,” he said. The center is also laying down the foundations for the Joint Common Foundation, an AI development environment that will broaden opportunities for developers across the Pentagon to build and deliver artificial intelligence capabilities in a secure DevSecOps infrastructure, he said. According to the General Services Administration, DevSecOps promotes a cohesive collaboration between development, security and operations teams as they work toward continuous integration and delivery of products. However, “while we develop and deliver these important near-term projects, we have to be ready for the contingencies of a changing and unpredictable operating environment,” Deasy said. “This is why I believe the true long-term success of the JAIC will depend on how the organization adapts and delivers real-world solutions when the strategic landscape and priorities change.” The organization is already proving it can adapt via its Project Salus effort — which is named after the Roman goddess of health and well-being — that has helped with the federal government's COVID-19 response, he said. “Working alongside a team of private industry partners, the JAIC developed a predictive-logistics AI dashboard platform for the U.S. Northern Command that enabled National Guard teams to assist states and municipalities with mitigating panic buying and managing supply chains,” he said. “That project went from concept to code in a matter of weeks. More importantly, it demonstrated the JAIC's ability to support the emergent needs of a combatant commander and deliver real AI solutions during a national emergency.” https://www.nationaldefensemagazine.org/articles/2020/11/3/joint-artificial-intelligence-center-keeps-branching-out

In NATO, much of concept development and experimentation (CD&E) activity begins with the identification of a concept that will contribute to capability development. Since a concept represents the first step to developing a capability, the starting point for the concept's development will often result from emerging technologies impacting on traditional methods of carrying out military operations. As acknowledged by Rear Admiral John Tammen in his welcome address to the International Concept Development & Experimentation (ICD&E) Conference, organised by NATO Allied Command Transformation (ACT), “the Science and Technology Organization had already done a significant amount of study into EDTs”, and thus, as the world's largest collaborative research forum in the field of defence and security, the STO can help inform concept developers on scientific research and technology innovations to help NATO develop concepts and capabilities to face current and future security challenges. Besides its virtual booth, the STO contributed to the ICD&E Conference with experts from the System Analysis and Studies (SAS) Panel, who ran a virtual wargame based on Intermediate Force Capability, and Exercise MADness, a CD&E exercise for countering civil unrest with emerging non-munitions technologies. Finally, the CMRE Deputy Director, Dr. Giovanni Sembenini, addressed the conference's main stage to reflect upon “Experimenting at the Frontier: S&T Challenges at CMRE in support of Naval Operations”. For further insight on the STO's work on CD&E, check out this video on Non-lethal Weapons and Intermediate Force Capabilities (IFC), which has helped to support the NATO Protection of Civilians Concept and is currently helping support NATO and National NLW/IFC concepts. https://www.sto.nato.int/Lists/STONewsArchive/displaynewsitem.aspx?ID=578

BAE Systems announced today it has been awarded multiple contracts from the U.S. Army to develop key technologies for the Advanced Teaming Demonstration Program (A-Team). BAE Systems was the only company awarded contracts for three of the program's four focus areas, designed to advance manned and unmanned teaming (MUM-T) capabilities that are expected to be critical components in the U.S. Army's Future Vertical Lift (FVL) program. In order to combat the increasingly complex, contested, and communication-denied battlespace presented by near-peer adversaries, the U.S. Army developed the A-Team program to create an automated system to offload the cognitive burden of pilots while enabling them to command swarms of unmanned aircraft. BAE Systems was selected to deliver a highly automated system to provide situational awareness, information processing, resource management, and decision making that is beyond human capabilities. These advantages become exceedingly important as the Army moves toward mission teams of unmanned aircraft that will be controlled by pilots in real time. The contracts total $9 million and include awards for the Human Machine Interface, Platform Resource Capability Management, and Situational Awareness Management elements of the program. To deliver the critical autonomy technology, BAE Systems' FAST Labs research and development team and Command, Control, Communications, Computers, Intelligence, Surveillance, and Reconnaissance (C4ISR) Systems business area will leverage their decades of work pioneering autonomy technologies. The program will leverage the Future Open Rotorcraft Cockpit Environment Lab to conduct simulation tests and demonstrations with products from different contractors in consideration of transition to the FVL program. Work for the program takes place at the company's facilities in Burlington, Massachusetts and San Diego, California. https://www.defenseworld.net/news/28242#.X6L0RWhKiUk