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  • Air Force to accelerate deployment of anti-jam satellite communications equipment

    27 décembre 2018 | International, Aérospatial, C4ISR

    Air Force to accelerate deployment of anti-jam satellite communications equipment

    by Sandra Erwin The Air Force is developing software and ground equipment to boost the protection of the Wideband Global satcom system. First in line for the upgrade are naval carrier strike groups. The Navy will get the new technology in 2022, about 18 months sooner than previously planned. WASHINGTON — The Air Force is cyber hardening military satellite communications equipment amid worries that foreign hackers could infiltrate U.S. networks. “Adversaries are getting better and more able to penetrate our unclassified or barely protected systems,” said Col. Tim Mckenzie chief of the advanced development division for military satellite communications at the Air Force Space and Missile Systems Center. The bulk of military satcom services are provided by the Air Force Wideband Global Satcom, or WGS, satellites and by commercial operators. All these systems require additional protection from cyber attacks, Mckenzie told SpaceNews in a recent interview. “Commercial satcom as well as our own purpose-built Wideband satellites were never designed to provide protection against some of the things we expect our adversaries to do in the near future,” he said. In response, the Air Force is developing software and satcom ground equipment to boost the protection of WGS networks in the near term, and commercial systems at a later time. First in line for these upgrades are the Navy's aircraft carrier strike groups in the Pacific, Mckenzie said. The Air Force will have this technology available for carrier strike groups in 2022, about 18 months sooner than previously planned. The central piece of the cyber security upgrade is anti-jam communications software — called the Protected Tactical Waveform (PTW). A ground system, the Protected Tactical Enterprise Service (PTES) will manage the transmission of the waveform over WGS satellites and terminals. Boeing, which manufactures the WGS satellites, was awarded a seven-year, $383 million contract in November to develop the PTES. “We are doing agile software development to enable early use of the PTW capability,” said Mckenzie. The anti-jam software and ground system only will work initially with WGS networks, said Mckenzie. If a commercial provider opted to use the PTW waveform, the ground system could be updated to interoperate with that vendor's network. Military satcom users will need to upgrade their satellite terminals with new modems to operate the PTW waveform. The Air Force two years ago awarded three contracts — $39 million to Raytheon, $38 million to L3 and $33 million to Viasat — to develop prototype modems. The Army, Navy and Air Force will run separate competitions to decide which modems they will acquire for their specific terminals. For carrier strike groups, the Navy will have to buy PTW-capable modems to upgrade its satellite terminals aboard ships. In the long term, the plan is to add a new space component — either newly designed spacecraft or military communications payloads hosted on commercial buses. “Our goal is to have some protected tactical satcom prototype payloads on orbit in the fiscal year 2025 time frame,” said Mckenzie. Whatever new hardware makes up the space segment, it will be compatible with the PTES ground equipment, he said. Mckenzie noted that the Air Force has been criticized for deploying satellites before the ground equipment is available. The PTW and PTES efforts reverse that trend. “We have learned lessons from being out of sync with terminals on the ground,” Mckenzie said. “We've been working for the last several years to develop modem upgrades that can be put into our existing terminals so we have terminals that can use PTW.” To get fresh thinking on how to develop a secure satcom system, the Air Force Space Enterprise Consortium is funding four design and prototyping projects. These are four areas “where we're trying o reduce risk,” said McKenzie. The consortium was stood up in 2017 and given authorities to kick start projects with far less red tape than traditional Pentagon contracting. Mckenzie said the Air Force is interested in new ideas for constellation architectures, payload hosting concepts, advanced space processing and antenna designs. McKenzie expects contracts for the development of protected tactical satcom payloads will be awarded in fiscal year 2020, with a goal to start launching new systems into orbit by 2025. Boeing, Northrop Grumman, Raytheon and X-Band LLC have entered into cost-sharing agreements with the Air Force — contracts known as Other Transactions Authority — to map out constellation sizes, layouts, design lives, and concepts such as hosting of military payloads as a commercial service. Boeing, Lockheed Martin, Northrop Grumman and SSL have signed OTA agreements to develop phased arrays and array fed reflectors antennas. BAE Systems, L3 and SEAKR Engineering received OTA deals to investigate requirements for secure satcom applications such as geo-location, waveform processing, and anti-jam. Boeing and Southwest Research Institute are studying hosting concepts, such as identifying interface commonalities between commercial and military bus providers and recommends ways to simplify the integration. Tom Becht, military satcom director at the Air Force Space and Missile Systems Center, said the protected tactical satcom effort has been underway for more than eight years and now is being accelerated as the Air Force seeks to respond to military commanders' needs in a more timely fashion. “The demand for protected satcom has significantly increased,” Becht said in an interview. After the PTW, PTES and the new space segment are deployed, the next step will be to modernize the military's nuclear-hardened strategic satcom system, the Advanced Extremely High Frequency constellation. Most of the users of the AEHF system are tactical operators and the Pentagon eventually wants to have a dedicated strategic satcom constellation for nuclear command and control. “Tactical users will transition to the Protected Tactical Satcom system,” said Becht. That transition could take decades, he said. “The aggregated [tactical and strategic] AEHF will be around until the mid 2030s or a bit longer.” https://spacenews.com/air-force-to-accelerate-deployment-of-anti-jam-satellite-communications-equipment

  • Defense Digital Service, Army Cyber Command expand partnership with workspace ‘Tatooine’

    26 octobre 2018 | International, C4ISR

    Defense Digital Service, Army Cyber Command expand partnership with workspace ‘Tatooine’

    by Samantha Ehlinger The Defense Digital Service and Army Cyber Command's growing partnership is getting its own workspace in downtown Augusta, Georgia, DDS announced Thursday. Dubbed Tatooine, the new workspace located at the state-owned Georgia Cyber Center is the expansion of the Jyn Erso pilot project launched last year to join DDS staff and Cyber Command soldiers to solve hard problems. The new space officially opened Thursday with a day-long hackathon “for cyber soldiers and the local tech community,” according to a press release. “Tatooine will be a beacon for technical talent across the military — a place to write code and solve problems of impact,” DDS Director Chris Lynch said in an announcement. “Through this partnership, we are setting our best technical warfighters against our toughest problems with support and training from our DDS software engineers and experts. Together, men and women in uniform and tech nerds are finding new ways to rapidly solve high-impact challenges.” The Army is gradually relocating its Cyber Command headquarters to nearby Fort Gordon. The state's CIO Calvin Rhodes said this week that the center will play host to the unclassified training sessions for personnel who are waiting for their security clearances to be completed, a process that can often take at least six months, sister publication StateScoop reported. The National Security Agency, which has an outpost at Fort Gordon, will also have a presence at the Georgia Cyber Center. Officials said the $100 million development is the single-largest investment by a state in a cybersecurity facility. Tatooine will join Army officers and soldiers with DDS technologists to tackle hard problems in unclassified “startup-like spaces” using private sector tools and methodologies, according to the Pentagon. “For instance, project teams are using concepts of continuous software iteration and user-centered design, which are common in the tech sector, but not in the military,” the department said. Tatooine is a way for DDS and Army Cyber Command to create more pilot teams without having to relocate Cyber Command personnel to Washington D.C. Other planned uses for Tatooine include supporting initiatives like the Hack the Army bug bounty program. Army's Cyber Command and Cyber Center of Excellence are providing the technical soldiers to staff teams and Professional Military Education credit for time spent in the program, according to the announcement. Senior Army officers from the center and the Army Cyber Institute will oversee day-to-day operations in the workspace and report to DDS. “To help the Army resolve its toughest talent management and technical challenges, DDS and U.S. Army Cyber Command (ARCYBER) have partnered to bring technically-gifted soldiers together with private sector civilian talent to rapidly develop immediate-need cyber capabilities,” Lt. Gen. Stephen Fogarty, head of the command, said in a statement. “This innovative partnership will solve tough problems and serve as a powerful retention and recruitment tool.” Through the Jyn Erso program, project teams have already tackled a few projects, such as a program to develop, produce and deploy a capability to combat commercial drones. “The team developed a low-cost software system that is flexible enough to adapt to newly identified targets and easy for operators to use and transport in austere conditions,” the announcement said. DDS and the Cyber Center of Excellence also launched a training pilot earlier this year as part of Jyn Erso to streamline cyber training courses. In its first iteration, DDS cut down the training time for a subset of Army soldiers from six months to just 12 weeks. We know what you're wondering, and yes, the names of the workspace and the pilot are Star Wars references. DDS, since its inception, has referred to itself as the Rebel Alliance ( a shoutout to the good guys in Star Wars), even naming the Pentagon's landmark $10 billion commercial cloud contract the Joint Enterprise Defense Infrastructure, or JEDI. https://www.fedscoop.com/defense-digital-service-army-cyber-command-expand-partnership-workspace-tatooine/

  • Epirus, a venture-backed startup, inks deal with Northrop for counter-drone tech

    21 juillet 2020 | International, Aérospatial, C4ISR

    Epirus, a venture-backed startup, inks deal with Northrop for counter-drone tech

    By: Joe Gould WASHINGTON ― Epirus, a venture-backed startup offering a counter-drone capability, launched quietly enough two years ago, but it's making noise by bringing together key veterans of Microsoft, Northrop Grumman and Raytheon ― and by landing its first deal with a name-brand defense prime contractor. Epirus chief executive Leigh Madden was general manager for Microsoft's national security business before he joined the Hawthorne, Calif.,-based firm two months ago, and its chief financial officer, Ken Bedingfield, is a former chief financial officer at Northrop. The former chairman of Epirus is Joe Lonsdale, co-founder of the Silicon Valley data-analytics company Palantir Technologies. Epirus, this week, is expected to announce a previously undisclosed strategic supplier agreement with Northrop to provide exclusive access to Epirus' software-defined electromagnetic pulse system, called Leonidas. The dollar value of the deal isn't being disclosed. Northrop said Leonidas would augment its own kinetic and non-kinetic solutions to counter small drones. The Army recently selected Northrop's Forward Area Air Defense Command and Control software, or FAAD-C2, as the interim C2 system to counter small drones. (DoD's FY21 budget request included $18.7 million for counter-drone enhancements for the system.) “UAS threats are proliferating across the modern battlespace,” said Kenn Todorov, vice president and general manager of Northrop Grumman's Combat Systems and Mission Readiness division. “By integrating the Epirus EMP weapon system into our C-UAS portfolio, we continue maturing our robust, integrated, layered approach to addressing and defeating these evolving threats.” Many companies have jumped into the $2 billion counter-UAS market, anticipating a boom as commercial drones have grown cheaper and more commonplace, posing an asymmetric threat on the battlefield as well as a threat to airports, sports stadiums, government buildings and urban areas. So many companies are in the field the Pentagon has been working to streamline the number of systems available across the department. Epirus executives said the company's technology is unique because its use of solid-state commercial semiconductor technology makes it lighter and smaller ― and because it can have narrow effects or be “adjusted to sanitize a volume of terrain or sky, creating a forcefield effect.” The company's systems involve a combination of high-power microwave technology and, for enhanced targeting, artificial intelligence. Epirus Co-founder and Chief Technology Officer Bo Marr was a radio frequency engineer and technical lead on Raytheon's next-generation jammer program, under development by the U.S. Navy. Madden, a former U.S. Navy SEAL who spent eight years at Microsoft, and Bedingfield, who spent five years as Northrop's CFO, both said they joined Epirus because they were impressed by the technology and its potential. “Northrop and Microsoft are both multibillion-dollar defense businesses, and I think we bring a knowledge of how to operate around some of the larger opportunities and to make outsized impacts in the market,” Madden said. “We're taking that experience to a smaller, innovative company. I think that will allow us to really accelerate the pace of growth and have a more rapid and greater impact for our customers.” The Pentagon has attempted to shift toward working with smaller, more innovative companies to supplement its work with larger firms, which continue to dominate the marketplace. Flexible, non-traditional contact vehicles called “other transaction authorities” have grown more popular as the Pentagon has turned to Silicon Valley for cutting edge technologies. “One of the things that attracted me to come to Epirus is the ability to work in an agile enterprise that is trying to take some of the approaches of Silicon Valley and apply them to the defense world―to iterate quicker and to field faster, and to be able to respond to the urgent needs of the customer,” Bedingfield said. Bedingfield said the company is growing fast and generating revenue from working with customers on studies and technology demonstrations, but it's as yet unclear when it will begin to deliver products. The coronavirus pandemic has slowed its hiring, but the firm is looking to double in the next year, adding more than 50 employees in Hawthorne, and a planned office in Northern Virgina. Formed in 2018 and named after the magical bow of the Greek hero Theseus, Epirus was raising $17.8 million in new funding last November, according to its public filings. With Lonsdale and Marr, its co-founders include its previous CEO; current Vice Chairman John Tenet, from venture capitol firm 8VC; Chief Operating Officer Max Mednik, a Google veteran; UnitedHealthcare Chief Digital Officer Grant Verstandig is the current chairman. Palantir, which Lonsdale founded with billionaire Peter Thiel in 2005, appeared as an upstart when the Defense Department hadn't opened its arms as wide to Silicon Valley. Last year, Palantir beat Raytheon in a head-to-head competition to provide the Army a new version of its intelligence analysis system ― after a years long saga in which the Army rejected Palantir's offering and Palantir sued. In September, Epirus won a Small Business Innovation Research contract from the U.S. Air Force's Space and Missile Systems Center as part of its AFWERX technology accelerator. The contract was for the company's novel architecture for using commercial off-the-shelf field programmable gate arrays, which are semiconductor devices commonly used in electronic circuits, as ultra-wideband radio frequency transceivers. While traditional systems use large vacuum tubes, Madden said Leonidas is based in microchips and software. “We believe there is no other solution on the market that allows for fully software defined precision targeting at digital speeds, enabling both precision targeting as well as large-area, counter-swarm targeting of many drones at the same time,” he said. Northrop and Epirus are expected to announce their partnership this week. “We're not just solving today's swarm threat, we're also looking to the future to understand how asymmetric threats will evolve,” Marr said in a statement. “Epirus is an agile startup, Northrop Grumman has defense prime contractor resources, and through this partnership we intend to deliver the best technology to the warfighter as fast as possible.” https://www.defensenews.com/2020/07/20/epirus-venture-backed-startup-inks-deal-with-northrop-for-counter-drone-tech

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