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“For the safety of our pilots:” AFRL hosts event aimed at fielding physiological sensors
Dr. James Christensen, research psychologist with the Air Force Research Laboratory’s 711th Human Performance Wing, gives a briefing Dec. 18 during the inaugural Physiological Episodes Mitigation Technology Summit and Industry Day in Dayton, Ohio. The summit, hosted by 711 HPW, brought in Air Force and Navy officials, as well as attendees from industry. (U.S. Air Force photo by Gina Marie Giardina)
“For the safety of our pilots:” AFRL hosts event aimed at fielding physiological sensors
Air Force and Navy officials watch a demonstration during the inaugural Physiological Episodes Mitigation Technology Summit and Industry Day in Dayton, Ohio, Dec. 17-18. (U.S. Air Force photo by Lt. Col. Christianne “BOS” Opresko)
“For the safety of our pilots:” AFRL hosts event aimed at fielding physiological sensors
Dr. Kevin Geiss, Airman Systems Directorate director, talks with Dr. David Neri, Air Force Medical Service Chief Scientist, and Col. LaFrance during the inaugural Physiological Episodes Mitigation Technology Summit and Industry Day in Dayton, Ohio, Dec. 17-18. (U.S. Air Force photo by Gina Marie Giardina)
“For the safety of our pilots:” AFRL hosts event aimed at fielding physiological sensors
Marketing materials are displayed at the Wright Brothers Institute's Small business Hub in downtown Dayton during the inaugural Physiological Episodes Mitigation Technology Summit and Industry Day Dec. 17-18. This event was hosted by the Air Force Research Laboratory's 711th Human Performance Wing. (U.S. Air Force photo by Gina Marie Giardina)
“For the safety of our pilots:” AFRL hosts event aimed at fielding physiological sensors
Second Lt. Dominique O’Brien and Dr. Jennifer Martin, both with the Air Force Research Laboratory’s 711th Human Performance Wing, look at a fabric to contain sensors shown by an industry participant during the first Physiological Episodes Mitigation Technology Summit and Industry Day in Dayton, Ohio, Dec. 17-18. (U.S. Air Force photo by Gina Marie Giardina)
“For the safety of our pilots:” AFRL hosts event aimed at fielding physiological sensors
Air Force and Navy officials listen to a briefing during the Physiological Episodes Mitigation Technology Summit and Industry Day in Dayton, Ohio, Dec. 17-18. (U.S. Air Force photo by Lt. Col. Christianne “BOS” Opresko)
AFRL-led patches make ‘sense’ of sweat
COLORADO SPRINGS, Colorado - A field tester at the U.S. Air Force Academy wears an Air Force Research Laboratory-developed sweat sensor during a ruck march as part of field testing of the AFRL-industry collaborative product. The next-generation wearable patch can measure select electrolyte levels present in human sweat and transmit this information wirelessly for scientific analysis. The patches will augment research on hydration with the goal of improving human performance in heat or high-stress conditions. (Courtesy photo/GE Global Research)
AFRL-led patches make ‘sense’ of sweat
WRIGHT-PATTERSON AIR FORCE BASE, Ohio - A collaborative effort between the Air Force Research Laboratory and industry partners through the Nano-Bio Manufacturing Consortium has led to the development of next-generation wearable patches that can detect electrolyte levels present in human sweat. Using novel AFRL-developed sensor materials and microfluidic technology, the patches can measure sodium and potassium levels present in sweat and transmit this information wirelessly for scientific analysis. The patches will augment research on hydration with the goal of improving human performance in heat or high-stress conditions. (Courtesy photo/GE Global Research)
AFRL, NextFlex leverage open-source community to create flexible circuit system
An Air Force Research Laboratory-led project in conjunction with NextFlex, America’s Flexible Hybrid Electronics Institute, has led to the development of a new, flexible Arduino circuit board system that takes advantage of flexible hybrid electronics manufacturing processes. (Photo courtesy of NextFlex)
AFRL’s AgilePod shows ISR versatility during Scorpion fit test
The Air Force Research Laboratory’s AgilePod is shown mounted on the wing of the Textron Aviation Defense’s Scorpion Light Attack/ISR jet. The AgilePod is an Air Force-trademarked, multi-intelligence reconfigurable pod that enables flight-line operators to customize sensor packages based on specific mission needs. A fit check in late December 2017 provided an opportunity to demonstrate the ability of the pod to rapidly integrate onto a new platform with short notice, highlighting the benefits of Sensor Open Systems Architecture.(U.S. Air Force photo / David Dixon)
AFRL’s AgilePod shows ISR versatility during Scorpion fit test
The Air Force Research Laboratory’s AgilePod is shown mounted on the wing of the Textron Aviation Defense’s Scorpion Light Attack/ISR jet. The AgilePod is an Air Force-trademarked, multi-intelligence reconfigurable pod that enables flight-line operators to customize sensor packages based on specific mission needs. A fit check held late December, 2017, provided an opportunity to demonstrate the ability of the pod to rapidly integrate onto a new platform with short notice, highlighting the benefits of Sensor Open Systems Architecture. (U.S. Air Force photo / David Dixon)
AFRL’s AgilePod shows ISR versatility during Scorpion fit test
The use of Open Systems Architectures during manufacturing enables the Air Force Research Laboratory’s AgilePod to integrate on diverse air platforms with short notice. The AgilePod is an Air Force-trademarked, multi-intelligence reconfigurable pod that enables flight-line operators to customize sensor packages based on specific mission needs. A fit check held late December, 2017, provided an opportunity to demonstrate the ability of the pod to rapidly integrate onto the Scorpion Light Attack/ISR jet, highlighting the benefits of Open Architecture for augmenting Air Force mission needs. (U.S. Air Force photo / David Dixon)
AFRL’s AgilePod shows ISR versatility during Scorpion fit test
The use of Open Systems Architectures during manufacturing enables the Air Force Research Laboratory’s AgilePod to integrate on diverse air platforms with short notice. The AgilePod is an Air Force-trademarked, multi-intelligence reconfigurable pod that enables flight-line operators to customize sensor packages based on specific mission needs. A fit check held late December, 2017, provided an opportunity to demonstrate the ability of the pod to rapidly integrate onto the Scorpion Light Attack/ISR jet, highlighting the benefits of Open Architecture for augmenting Air Force mission needs. (U.S. Air Force photo / David Dixon)
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’s cutting edge ISR platform commences Harvest Reaper flight testing
The Air Force Research Laboratory’s AgilePod has commenced a series of flight tests aboard a Douglas DC-3 aircraft in preparation for integration on the Air Force MQ-9 Reaper unmanned aerial vehicle later this year. AgilePod is fully flight-line reconfigurable, and enables operators to meet a variety of mission sets with multiple sensors on a single platform. (U.S. Air Force photo/David Dixon)
AFRL’s cutting edge ISR platform commences Harvest Reaper flight testing
The Air Force Research Laboratory’s AgilePod has commenced a series of flight tests aboard a Douglas DC-3 aircraft in preparation for integration on the Air Force MQ-9 Reaper unmanned aerial vehicle later this year. AgilePod is fully flight-line reconfigurable, and enables operators to meet a variety of mission sets with multiple sensors on a single platform. (U.S. Air Force courtesy photo)
AFRL’s cutting edge ISR platform commences Harvest Reaper flight testing
The Air Force Research Laboratory’s AgilePod has commenced a series of flight tests aboard a Douglas DC-3 aircraft in preparation for integration on the Air Force MQ-9 Reaper unmanned aerial vehicle later this year. AgilePod is fully flight-line reconfigurable, and enables operators to meet a variety of mission sets with multiple sensors on a single platform. (U.S. Air Force photo/David Dixon)
AgilePod ‘reconfiguring’ ISR mission
Air Force Research Laboratory’s AgilePod is a multi-intelligence, open architecture, reconfigurable prototype designed for the intelligence, surveillance and reconnaissance (ISR) and Air Force Special Operations communities. The reconfigurable pod enables operators to customize sensor packages based on specific mission needs, enhancing the intelligence process. The pod capability will be tested on a medium altitude MQ-9 surrogate aircraft in May 2017. (Courtesy photo/released)
Environmental sensing platform offers added protection against corrosion
The Air Force Research Laboratory is developing and testing a device that can measure environmental factors such as pollutants, salt, and moisture in order to predict corrosive conditions before they can start causing damage to valuable assets. (U.S. Air Force photo/Matthew Hartshorne)