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Anthropometry specialist Mark Boehmer (right), of General Dynamics Advanced Information Systems, prepares firefighter Paul Bauer, a 19-year veteran and part-time firefighter engineer with the city of Mason (Ohio) Fire Department, for a three-dimensional s
Anthropometry specialist Mark Boehmer (right), of General Dynamics Advanced Information Systems, prepares firefighter Paul Bauer, a 19-year veteran and part-time firefighter engineer with the city of Mason (Ohio) Fire Department, for a three-dimensional scan dressed in full turnout gear (photo by AFRL’s Chris Gulliford).
The Attenuating Custom Communications Earpiece System (ACCES®) is constructed from silicone (photo courtesy of US Air Force Senior Airman DeLicha E. Germany).
The Attenuating Custom Communications Earpiece System (ACCES®) is constructed from silicone (photo courtesy of US Air Force Senior Airman DeLicha E. Germany).
Integrated cooling and power system demonstrator with turbogenerator installed
Integrated cooling and power system demonstrator with turbogenerator installed
Test specimens and test chamber
Test specimens and test chamber
AFRL vice commander helps kick off Air Force aircrew anthropometry study
Col. David B. Glade II, vice commander of the Air Force Research Laboratory, recently volunteered as a test subject to help kick off the first Air Force aircrew body measurement study in 40 years. Research anthropologist Scott Fleming (left) explains the data gathering process as he positions Col. Glade in one of the standard test subject poses. (Photo by Chris Gulliford AFRL/RH)
AFRL vice commander helps kick off aircrew body measurement study
Scott Fleming (left), anthropologist with the Air Force Research Laboratory Human Effectiveness Directorate, positions AFRL Vice Commander Col. David B. Glade II in the lab's 3-dimensional whole-body surface scanner as he explains how the body measurement scanning process works. (Photo by Chris Gulliford AFRL/RH)
Transistors based on carbon nanotubes, ultrathin tubes of carbon a few atoms wide that will play a prominent role in the future of electronics due to their exceptionally high electrical conductivity.
Transistors based on carbon nanotubes, ultrathin tubes of carbon a few atoms wide that will play a prominent role in the future of electronics due to their exceptionally high electrical conductivity.
Transistors based on carbon nanotubes, ultrathin tubes of carbon a few atoms wide that will play a prominent role in the future of electronics due to their exceptionally high electrical conductivity.
Transistors based on carbon nanotubes, ultrathin tubes of carbon a few atoms wide that will play a prominent role in the future of electronics due to their exceptionally high electrical conductivity.
An AFRL optoelectronics team is advancing Air Force combat systems through research into high-brightness/high-efficiency emission sources (e.g., light-emitting diodes and lasers) for laser radar and infrared countermeasures applications.
An AFRL optoelectronics team is advancing Air Force combat systems through research into high-brightness/high-efficiency emission sources (e.g., light-emitting diodes and lasers) for laser radar and infrared countermeasures applications.
An AFRL optoelectronics team is advancing Air Force combat systems through research into high-brightness/high-efficiency emission sources (e.g., light-emitting diodes and lasers) for laser radar and infrared countermeasures applications.
An AFRL optoelectronics team is advancing Air Force combat systems through research into high-brightness/high-efficiency emission sources (e.g., light-emitting diodes and lasers) for laser radar and infrared countermeasures applications.
An AFRL optoelectronics team is advancing Air Force combat systems through research into high-brightness/high-efficiency emission sources (e.g., light-emitting diodes and lasers) for laser radar and infrared countermeasures applications.
An AFRL optoelectronics team is advancing Air Force combat systems through research into high-brightness/high-efficiency emission sources (e.g., light-emitting diodes and lasers) for laser radar and infrared countermeasures applications.
A novel methodology for building three-dimensional (3-D) models of urban environments in a fast, scalable, and automated way.
A novel methodology for building three-dimensional (3-D) models of urban environments in a fast, scalable, and automated way.
The researchers use nonlinear mathematical and visualization methods as a systematic means of identifying the components of the turbulence.
The researchers use nonlinear mathematical and visualization methods as a systematic means of identifying the components of the turbulence.
The Cooperative Operations in Urban Terrain team
The Cooperative Operations in Urban Terrain team
Engineers used the Cadena model to develop the avionics environment employed for the software flown on the Scan Eagle unmanned air vehicle platform at White Sands Missile Range, New Mexico.
Engineers used the Cadena model to develop the avionics environment employed for the software flown on the Scan Eagle unmanned air vehicle platform at White Sands Missile Range, New Mexico.
Pictured top to bottom are advanced materials in development, the boule for AFRL’s laser part, and a standard-sized boule.
Pictured top to bottom are advanced materials in development, the boule for AFRL’s laser part, and a standard-sized boule.
New large-aperture nonlinear optical crystal parts, with the center image showing nine standard-sized crystal parts stacked into a cube
New large-aperture nonlinear optical crystal parts, with the center image showing nine standard-sized crystal parts stacked into a cube
Portable airfield lighting system that uses light-emitting diodes and can be switched from visible to infrared light (graphic courtesy of Gary A. Rankin, AFRL Human Effectiveness Directorate)
Portable airfield lighting system that uses light-emitting diodes and can be switched from visible to infrared light (graphic courtesy of Gary A. Rankin, AFRL Human Effectiveness Directorate)
The X-48B Blended-Wing Body research vehicle (photo courtesy of Boeing)
The X-48B Blended-Wing Body research vehicle (photo courtesy of Boeing)
Lieutenant Colonel Joseph J. Fraundorfer
Lieutenant Colonel Joseph J. Fraundorfer