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AFRL demonstrates LVC capabilities during Red Flag-Rescue visit
Bob Theimer, Air Force Research Laboratory software engineer, pilots a virtual aircraft to begin a demonstration using live, virtual and constructive elements into one training environment. During a training scenario, people are physically operating equipment in real time parallel to the identically matched scenario with a computer-generated environment. (U.S. Air Force photo/John Van Winkle)
AFRL DemonstRAtes tActicAL soLiD-stAte LAseR WeApon technoLogy
AFRL DemonstRAtes tActicAL soLiD-stAte LAseR WeApon technoLogy
AFRL demonstrates technology to Ermey, VFW
Marine Corps veteran and host of The History Channel's Mail Call, R. Lee Ermey (left) and Mr. Melvin Snyder, past commander of VFW Post 9550, inspect a portable lightweight battery developed by the Air Force Research Laboratory to reduce weight borne by combat controllers in the field. (Photo by Chris Gulliford, AFRL/HE)
AFRL demos advanced robotics for aerospace manufacturing
The Air Force Research Laboratory recently demonstrated the advanced capabilities of the Advanced Automation for Agile Aerospace Applications (A5) Robotic System at the Southwest Research Institute in San Antonio, Texas, for government and industry representatives. The 22,000 pound A5 robotic system is the first multi-purpose robot designed for use on the aerospace factory floor capable of using real-time sensor feedback to conduct work in a localized environment. (U.S. Air Force courtesy photo/released)
AFRL developing AgilePod ‘family’ to augment sensing grid
The AgilePod, the first physical system to be trademarked by the Air Force, is a multi-intelligence, open architecture, flight-line reconfigurable pod designed for the intelligence community. A new effort to develop a suite of platform-agnostic AgilePods in various sizes is currently in progress, teaming AFRL with industry partners. (U.S. Air Force photo/David Dixon)
AFRL developing rapidly-deployable, independent energy sources for remote military sites
These energy-harvesting wind turbines in Kotzebue, Alaska, are part of the Energy Assurance at Remote Radar Sites project, a one-year effort managed by the AFRL Advanced Power Technology Office to demonstrate rapidly-deployable, off-grid energy technologies for increased mission energy resiliency in remote locations. (U.S. Air Force photo/Capt Jason Goins)
AFRL developing rapidly-deployable, independent energy sources for remote military sites
These lightweight solar panels on Mt. Koke’e, Hawaii, are part of the Energy Assurance at Remote Radar Sites project, a one-year effort managed by the AFRL Advanced Power Technology Office to demonstrate rapidly-deployable, off-grid energy technologies for increased mission energy resiliency in remote locations. (Photo courtesy of University of Dayton Research Institute/AJ Mouser)
AFRL develops algorithm, flexible device for hands-free ultrasound
Conventional ultrasound hand-held rigid array of transducers. (Courtesy graphic)
AFRL develops algorithm, flexible device for hands-free ultrasound
The new flexible phased array probe was designed and manufactured to have both flexibility and mechanical integrity combined with improved acoustic properties. (Courtesy photo/Olympus Industrial Resources)
AFRL develops algorithm, flexible device for hands-free ultrasound
Flexible transducer prototype determines the location of transducers in a flexible array, so that ultrasound image can be determined without a rigid arrangement of transducers. (Courtesy photo)
AFRL Develops Brassboard GI
AFRL Develops Brassboard GI Fuze for Glide Bombs
AFRL Develops Hot Air Module
AFRL Develops Hot Air Module f or Composite Repairs
AFRL Develops Network-Centric Monitor for Multiple Heterogeneous Datastreams
AFRL Develops Network-Centric Monitor for Multiple Heterogeneous Datastreams
AFRL develops next generation airfield matting
Working in partnership with industry, Air Force Research Laboratory has developed lightweight composite next generation panels to support aircraft as airfield matting at austere airfields. Here, a vechicle is used to test the new panel’s weight-bearing ability. (U.S. Air Force photo)
AFRL Develops Novel Ceramic-Based Body Armor
AFRL Develops Novel Ceramic-Based Body Armor
AFRL Develops Open-Source National Imagery Transmission Format Library
AFRL Develops Open-Source National Imagery Transmission Format Library
AFRL develops robot for automated aircraft ground refueling
Air Force researchers have developed a robot for automated aircraft ground refueling. The Air Force Research Laboratory's Automated Aircraft Ground Refueling system mock-up simulates performing a refueling test during a demonstration. (Photo courtesy of Dr. Mikel Sawyer)
AFRL Early Career Award winners honored
Maj. Gen. Tom Masiello and Dr. Morley Stone (far right) presented four Air Force Research Laboratory Early Career Awards Oct. 30, 2014 at the National Museum of the U.S. Air Force. The award recognizes AFRL's most outstanding young scientists and engineers for scientific or engineering work early in their careers. From left: Dr. Frederick Leve, Research Aerospace Engineer, Space Vehicles Directorate; Dr. Tiffany Jastrzembski, cognitive research scientist, 711th Human Performance Wing; Dr. Janet Wolfson, senior mechanical engineer, Munitions Directorate; and Dr. Derek Kingston, Unmanned Aerial Vehicle team lead, Control Science Center of Excellence, Aerospace Systems Directorate. Maj. Gen. Masiello is AFRL commander, and Dr. Stone, AFRL chief technology officer. (U.S. Air Force photo/Wesley Farnsworth)
AFRL earns VPP status
Key members of the Air Force Research Laboratory Headquarters Voluntary Protection Program (VPP) Team hold the VPP Star Site Flag after earning “Star Site” status. Key members from left to right are: Norm Tucker, OSHA’s Dale Henderson, A.J. Folino, Gary Howell, Pam Bradbury, Rick Macke, Greg Verdier, Brian Schafer and AFRL Commander Maj. Gen. William N. McCasland.
AFRL employees receive Fellow and Early Career Award recognition
Dr. Benji Maruyama, Principal Materials Research Engineer and Leader of the Flexible Materials and Processes Research Team in the Functional Materials Division, is named an Air Force Research Laboratory Fellow for his scientific and engineering achievements. (U.S. Air Force photo/Karen Schlesinger)