Soldiers at this base now have a 3D printing course

On the same subject

• 

  June 9, 2024 | International, Security

  LightSpy Spyware's macOS Variant Found with Advanced Surveillance Capabilities

  Researchers have uncovered that the LightSpy spyware, previously thought to target iOS, has a macOS variant.

• 

  November 26, 2020 | International, C4ISR

  Could soldiers silently communicate using brain signals in the future?

  Andrew Eversden WASHINGTON — A breakthrough in decoding brain signals could be the first step toward a future where soldiers silently communicate during operations. New research funded by the U.S. Army Research Office successfully separated brain signals that influence action or behavior from signals that do not. Using an algorithm and complex mathematics, the team was able to identify which brain signals were directing motion, or behavior-relevant signals, and then remove those signals from the other brain signals — behavior-irrelevant ones. “Here we're not only measuring signals, but we're interpreting them,” said Hamid Krim, a program manager for the Army Research Office. The service wants to get to the point where the machine can provide feedback to soldier's brains to allow them to take corrective action before something takes place, a capability that could protect the health of a war fighter. Krim pointed to stress and fatigue signals that the brain gives out before someone actually realizes they are stressed or tired, thus letting troops know when they should take a break. The only limit to the possibilities is the imagination, he said. Another potential future use is silent communication, Krim said. Researchers could build on the research to allow the brain and computers to communicate so soldiers can silently talk via a computer in the field. “In a theater, you can have two people talking to each other without ... even whispering a word,” Krim said. “So you and I are out there in the theater and we have to ... talk about something that we're confronting. I basically talked to my computer — your computer can be in your pocket, it can be your mobile phone or whatever — and that computer talks to ... your teammate's computer. And then his or her computer is going to talk to your teammate.” In the experiment, the researchers monitored the brain signals from a monkey reaching for a ball over and over again in order to separate brain signals. But more work is to be done, as any sort of battle-ready machine-human interface using brain signals is likely decades away, Krim said. What's next? Researchers will now try to identify other signals outside of motion signals. “You can read anything you want; doesn't mean that you understand it,” Krim said. “The next step after that is to be able to understand it. The next step after that is to break it down into into words so that ... you can synthesize in a sense, like you learn your vocabulary and your alphabet, then you are able to compose. “At the end of the day, that is the original intent mainly: to have the computer actually being in a full duplex communication mode with the brain.” The Army Research Office-backed program was led by researchers at the University of Southern California, with additional U.S. partners at the University of California, Los Angeles; the University of California, Berkeley; Duke University; and New York University. The program also involved several universities in the United Kingdom, including Essex, Oxford and Imperial College. The Army is providing up to $6.25 million in funding over five years. https://www.c4isrnet.com/battlefield-tech/it-networks/2020/11/25/could-soldiers-silently-communicate-using-brain-signals-in-the-future/

• 

  September 16, 2019 | International, Aerospace

  Lockheed Martin Skunk Works®' Project Riot Demonstrates Multi-Domain Operations

  PALMDALE, Calif., Sept. 16, 2019 /PRNewswire/ -- Lockheed Martin (NYSE: LMT) Skunk Works®, the Missile Defense Agency and the U.S. Air Force successfully connected an F-35, U-2 and a multi-domain ground station in a ground-breaking test demonstrating multi-domain operations and the secure distribution of sensitive information across multiple platforms. During the demonstration, called Project Riot, an F-35 detected a long-range missile launch with its onboard sensors and shared the information through the U-2 to the air defense commander on the ground, enabling the commander to quickly make the decision to target the threat. This next-level connectivity reduces the data-to-decision timeline from minutes to seconds, which is critical in fighting today's adversaries and advanced threats. In partnership with the Air Force Life Cycle Management Center at Hanscom Air Force Base, Massachusetts, and the Missile Defense Agency, Skunk Works' Project Riot builds on a series of open systems architecture demonstrations proving how incremental increases in capability can be rapidly fielded to enable a connected network across air, ground, sea, space and cyber domains. "This demonstration continues our commitment to provide complete battlespace awareness and seamless interoperability to enable multi-domain operations," said John Clark, vice president of ISR & UAS at Lockheed Martin Skunk Works. "With its long-range standoff sensors, on-board processing and ability to operate in and around contested environments, the U-2 continues to play a critical role in demonstrating new capabilities today, while transforming operations for tomorrow's battlespace." Leveraging common industry standards to drive down cost and shorten schedules, the team achieved four mission critical data points in less than four months: Demonstrated the ability to leverage F-35 sensor data for missile defense Leveraged the modernized U-2's extensive payload capacity, modular design and open architecture to provide beyond line of sight communications between the F-35 and a multi-domain ground station Established two new data paths to securely transmit 5th generation sensor data at multiple levels of security to the warfighter, enabling a multi-domain network of legacy and 5th generation systems Disseminated 5th generation data using the Air Force's Universal Command and Control Interface and Open Mission Systems standards for faster capability deployment and seamless connection between systems "The F-35, with its advanced sensors and connectivity, is able to gather and seamlessly share critical information enabling the joint force to be safer and more effective," said Greg Ulmer, Lockheed Martin vice president and general manager for the F-35 program. "No other fighter jet in the world has this capability – and this test was a critical step on the path to unlocking its full potential for multi-domain operations." This demonstration builds on successful flight tests completed since 2013 that establish the foundation for a distributed, systems-of-systems architecture in the not-too-distant future. For additional information, visit our website: www.lockheedmartin.com/MDO https://news.lockheedmartin.com/2019-09-16-Lockheed-Martin-Skunk-Works-R-Project-Riot-Demonstrates-Multi-Domain-Operations