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Working shoulder to shoulder, we support and sustain the United States Air Force. Its aircraft. Its facilities. Its infrastructure. Its systems. And all 300,000 active duty Airmen.

We are the civilians who support and sustain the Air Force. At 170,000 strong, we too are a force to be reckoned with.

Shoulder to shoulder, nothing will deter us from success.

As civilians, we share the same responsibility to our nation as the men and women in uniform. We share the same passion as well. Shoulder to shoulder, we harness the energy to meet every challenge.

Working in over 600 occupations and professions we are the backbone of the Air Force. We are engineers working in research labs and social workers helping kids acclimate to new environments. We are physicians treating Airmen and their families. We are cyber security experts on the front line guarding against hackers. We are police officers, aircraft mechanics, nuclear physicists, and mathematicians. We are HR professionals, electricians, and rocket scientists. And so much more.

USAF is renowned for its unparalleled innovation and deployment of paradigm-shifting systems. AFCS is helping drive that innovation with a focus on breakthroughs in technology and in human potential.

To that end, we maintain research facilities and dedicated laboratories in 22 locations around the country. Staffed by over 16,000 civilians, these labs are on the cutting edge of discovery and innovation, and our scientists and engineers work with technology and advanced equipment unavailable anywhere else.

Communities of Support

We also create and sustain communities for ourselves and our active duty colleagues on over 80 Air Force bases and installations in the US and nearly a dozen around the world.

We provide full medical services, offer child care, shopping, entertainment, recreation, and other basic services. These communities are vital to the well-being of Airmen and their families and contribute to readiness in mind, body, and spirit.

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Strength in Diversity

At AFCS we value the strength that comes from our diverse perspectives and abilities and from our different backgrounds and experiences. This is essential to our creativity and success.

We rely on inspired thinking from any and every member of our team and cultivate multicultural viewpoints, varied education, and life experiences to fuel innovation in every field of operation essential to the Air Force mission.

Shoulder to shoulder—success is assured when everyone contributes.

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Working in AFCS laboratories and research facilities around the country, our team of scientists, engineers, researchers, and developers have made incredible discoveries; put innovative thinking into practical use; and pushed the cutting edge to the limits.

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A-10 Thunderbolt II Attack Aircraft

Maintaining unrivaled superiority in the sky takes a lot of groundwork. AFCS provides the breakthroughs, advancements, new technologies, and testing scenarios that keep the United States Air Force on the cutting edge of air defense, combat, stealth, and intelligence gathering.

Micro Air Vehicles, Robotic Birds & Ornithopters

Flying bat that illustrates experimental flight research

Engineers at Wright-Patterson AFB have found that designing micro air vehicles – or MAVs – is nothing like shrinking an F-16. At a mere six inches in length, Robotic Birds pack sensors, receivers, and power supplies that enable them to fly, hover, and rest virtually unnoticed – making them ideal vehicles for gathering intelligence. Motion capture – MOCAP – is an important support technology. Commonly used in video game development to record and digitize movement, MOCAP is now being employed by Air Force researchers to teach computers to fly remotely and to track air and land vehicles.

Speaking of research, it doesn’t get “battier” than Air Force efforts to advance MAV capabilities. While MAVs are successfully being used in Afghanistan and Iraq, their wings are unsuited for maneuvering in tight spaces and harsh weather. So, researchers are modelling the next generation of MAVs on the sophisticated wings of bats, which actually change shape during flight, enabling them to remain airborne and flexible in difficult conditions. These Ornithopters (wing-flapping aircraft) will smoothly navigate turbulent weather and complex environments like forests, buildings, caves, and tunnels.

Air Force Arsenal

Photo: Airman securing munitions

With 162 bombers, 2,286 fighter/attack aircraft, and 203 helicopters in total active inventory—not to mention 450 intercontinental ballistic missiles (ICBMs)—the United States Air Force is well-equipped to do some serious damage to the enemy. Our elite STEM civilian workforce researches and develops the next generation of weapons technology.

Remotely Piloted Aircraft (RPAs)

Photo: Remotely Piloted Aircraft being serviced

Remotely piloted vehicles (RPAs), known as Predator and Reaper, have flown in on the winds of change. In 2010, for the first time in its history, the Air Force bought more RPAs than manned air vehicles.

These highly sophisticated aircraft for combat and reconnaissance are highly sought-after weapons systems, so too are the unsung pilots and intelligence analysts directing these RPAs from sites sometimes half a world away.

Whether noiselessly observing an unsuspecting enemy or watching over our soldiers, these pilots’ abilities and psyches are every bit as engaged and challenged as those of their comrades in traditional aircraft.

Scramjet X51A Wave Rider

Artist rendering: Scramjet X51A Wave Rider aircraft

The Air Force’s X-51A Wave Rider experimental aircraft is powered by a state-of-the-art supersonic combustion scramjet engine that, unlike a rocket, can capture and burn oxygen in the earth’s atmosphere instead of carrying it in a large tank. In May 2013, the X-51A set a flight time record by making the longest sustained scramjet-powered, air-breathing hypersonic flight to date, reaching Mach 5 – an astonishing one mile per second, or nearly 4,000 miles per hour and it continues to break records.

Researchers believe scramjet technology will soon produce game-changing hypersonic applications. Imagine a flight from New York to Los Angeles in less than 45 minutes!

Stealth Technology

Photo: B2 bomber with F-22 fighter

The B-2 Spirit is a multi-role bomber capable of delivering both conventional and nuclear munitions. The revolutionary blending of low-observable technologies with high aerodynamic efficiency and large payload gives the B-2 important advantages over existing bombers. Its stealthy features provide it with greater freedom of action at high altitudes, thus increasing its range and offering a better field of view for the aircraft's sensors. Its unrefueled range is approximately 6,000 nautical miles (9,600 kilometers).

The F-35 Lightning II is a fifth-generation, single-seat, single-engine, stealth multi-role fighter that can perform close air support, tactical bombing, and air defense missions. The F-35 has three different models: a conventional takeoff and landing variant; a short takeoff and vertical-landing variant; and a carrier-based variant. The F-35 is intended to be the world's premier strike aircraft through 2040, with close- and long-range air-to-air capability second only to that of the F-22 Raptor.

The F-22 Raptor is a single seat, twin-engine, fifth-generation fighter aircraft. Its combination of stealth, supercruise, maneuverability, and integrated avionics, coupled with improved supportability, represents an exponential leap in warfighting capabilities. The Raptor performs both air-to-air and air-to-ground missions allowing full realization of operational concepts vital to the 21st century Air Force.

Test Pilots

Photo: Four test pilots from the1950s and 1960s

In the 1950s, test pilots were being killed at the rate of about one a week, but the risks have dropped to a fraction of that, thanks to the maturation of aircraft technology, better ground-testing and simulation of aircraft performance, and, lately, the use of unmanned aerial vehicles to test experimental aircraft features. Still, piloting experimental aircraft remains more dangerous than most other types of flying.

Wind Tunnels

Photo: Technician standing in an enormous wind tunnel

U.S. Air Force wind tunnels put aircraft, propulsion systems, and space craft through their paces. Arnold Engineering Development Center (AEDC) is the most advanced and largest complex of flight simulation test facilities in the world. The center operates 58 aerodynamic and propulsion wind tunnels, rocket and turbine engine test cells, space environmental chambers, arc heaters, ballistic ranges, and other specialized units. Twenty-seven of the center’s test units have capabilities unmatched elsewhere in the United States; 14 are unique in the world. Facilities can simulate flight conditions from sea level to an altitude of 300 miles and from subsonic velocities to Mach 2.0.


Photo: Astronaut in full space suit during a space walk

What used to be called “the final frontier” is now an active everyday domain for Air Force. Researchers are gathering an unprecedented amount of data beyond the Earth’s atmosphere which informs and guides our ever-expanding satellite capabilities. The knowledge helps bring us the most accurate weather forecasts, pin-point geo-positioning, deter enemy intentions, as well as shape the future of America’s quest into space.

The GPS Constellation

Artist rendering: GPS satellites

Did you know that GPS is provided by the U.S. Air Force to the entire world free of charge? It’s made possible by satellites developed by Air Force civilian researchers.

These satellites orbit the earth broadcasting radio signals that allow a form of triangulation. Beyond providing highly accurate positioning that enable the navigation devices in our cars and on our smart phones, GPS enables critical networks like cellular phones, ATM banking, and power grids, to name a few. It also provides crucial precision navigation and timing capabilities to our military forces around the world. The latest addition to this system was successfully launched from Cape Canaveral on May 15, 2013. This GPS IIF-4 spacecraft was added to the orbiting constellation of 64 satellites circling 11,000 nautical miles above Earth.

The capabilities of the new IIF satellites provide greater navigational accuracy through improvements in atomic clock technology; a more robust signal for commercial aviation and safety-of-life applications, known as the new third civil signal (L5); and a 12-year design life providing long-term service. These upgrades improve anti-jam capabilities for the warfighter and improve security for military and civilian users around the world.


Photo: Rocket launch

The Air Force Office of Scientific Research and NASA successfully launched a nine-foot rocket 1,300 feet over the skies of Indiana using an environmentally friendly, safe propellant composed of Aluminum powder and water ice (ALICE). ALICE has the consistency of toothpaste when made and can be fit into molds and cooled to -30° C, 24 hours before flight.

The concept has really taken off with researchers for several reasons. When optimized, ALICE could have a higher performance than conventional propellants; it can be used both for flight on Earth and in long-distance space missions; and it can theoretically be manufactured on distant planets – the moon or Mars, for example – instead of having to be transported to those distant locations.

Satellite Technology

Artist rendering: Satellite in orbit around the earth

U.S. Government data received from satellites have increased 100,000-fold in the last decade due primarily to the addition of nearly 50 new instruments to the nation’s exploratory toolbox.

Currently, scientists are studying information that satellites are gathering on how our solar system affects the weather. In addition to heating the land, the sun’s energy can create weather disturbances and drive ocean currents. Researchers monitoring the amounts of solar energy reaching the earth theorize that it is small increases in the sun's total energy output over the last century that’s responsible for climate change.

With increasingly sophisticated satellites at their disposal, scientists will be able to make deeper observations and improve predictions about changing climatic conditions.

Space Weather

Artist rendering: Weather satellite in orbit

The Coriolis satellite that carries Air Force Research Lab’s (AFRL) Solar Mass Ejection Imager, or SMEI, has successfully detected and tracked 360 coronal mass ejections (CMEs) and shown the practicality of forecasting effects at Earth of these hazardous space weather phenomena.

Since 2003, SMEI cameras have captured nearly full sky images of great sensitivity every 103 minutes; there is no other celestial record of this length, field of view, continuity, sensitivity and cadence.

SMEI has collected unprecedented data in many areas of heliospheric observations including CME-comet tail interactions, zodiacal background variation through the solar cycle, discovery of high altitude auroras, and resident space object observations. SMEI data have also produced light curves for variable stars and novae with unparalleled time resolution.


Artist rendering: multiple computer monitors against a high-tech background

Perhaps the true realm of the future, the seemingly infinite possibilities of the digital world—cyberspace—are certain to change forever the way we live and communicate, And the Air Force stands ready to dominate this new territory by pushing the leading edge of research, development, innovation, and discovery.

Cyber Attack

Artist rendering: multiple interconnected laptop computers with “alert” icons in each

The Air Force Research Laboratory (AFRL) developed a Network Intrusion, Risk and Vulnerability Analysis (NIRVANA) software tool to provide comprehensive cyber security analysis capability. The tool uses data from multiple intrusion detection systems to produce a comprehensive situation awareness picture, including a static evaluation of network vulnerabilities.

NIRVANA identifies the consequences of actions. With this tool, network vulnerabilities are identified using the novel attack graphs associated with applications and mission requirements. The technology can estimate the probable targets intended by the attacker, allowing operators to counter with near-real-time actions, effectively denying the attacker’s goals. The technique is designed to scale, allowing for coordination of multiple security domains, and several runtime operators.

Using this tool, the Air Force, Department of Defense (DoD) and other large enterprises have the first comprehensive capability to visualize the implications of a cyber-attack. Operators will be able to anticipate the actions of attackers, even when a slow-brewed or multi-prong attack is in progress. The ability to anticipate and adjust in order to maintain mission readiness during the attack, although present in DoD cyber security strategy, is a missing component of our current cyber deterrence arsenal. This NIRVANA technology is the first to provide coherent enterprise-wide network cyber-attack damage assessment.

Nano Technology

Photo: microscopic view of crystals

While nanoscientists study matter on an atomic and molecular scale, nanotechnologists develop materials and devices 100 nanometers or smaller in one or more dimensions. [A nanometer is one billionth of a meter, or the comparative size of a marble to the earth; a meter is about three feet.]

Since it began in the 1980s, their work has advanced on two tracks – controlling self-recognizable/self-assembling molecular components and scaling down larger entities without atomic-level control. The seemingly infinite number of potential applications will impact multiple fields: robotics, medicine, electronics, and geo-engineering are just a few. AFCS is pushing the leading edge of research and development in this fascinating field.

The World’s Fastest Router

Photo: Airman with wing mounted router

The U.S. Air Force recently completed testing on a new “flying wireless router” system that will help give ground forces and pilots real-time tactical information in the field.

The main difference between this router and a typical one you might be using at home is that it is attached to fighter planes. It is essentially a software upgrade called Net-T, for “network tactical,” and is designed to facilitate almost instantaneous communication between commanders, ground troops, and fighter aircraft. This new development provides real-time information like videos, images, maps, coordinates, or any file type from the forward deployed elements without relying on satellite, radio or other forms of traditional communication. It is setting the stage to provide beyond line-of-site command and control capability to warfighters in the air, sea, and on the ground.

Super Computing

Photo: Multiple rack-mounter Sony PlayStations

Once thought to be just a part of home entertainment systems, Sony’s PlayStation 3 is proving itself to be more than just an online death-match machine.

The game console’s price-to-performance ratio inspired one AFCS research team to place an order for 1,700 of them to go with the 336 they already have. The system will use 300 to 320 kilowatts at full bore and about 10 percent to 30 percent of that in standby, when most supercomputers are using 5 megawatts. However, much of the time the cluster will only be running the nodes it needs and it will be turned off when not in use. By taking advantage of a growing gaming market, the price performance is just $2 to $3 per gigaFLOPS.

The research team has been able to take advantage of about 60 percent of the PlayStations’ performance ability. Once complete, they are expecting to have a unit capable of 500 teraFLOPS or 500 trillion operations per second.

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Shoulder to Shoulder
The Satisfaction
Satellite image
Researcher with a laser
rocket launch
scientist calibrating equipment
fighter jets refueling in flight
scramjet X-51 wave rider
F-22 in flight

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