The new NASA software VISAR, can make valuable clues visible in
videos taken in low light. The sincle frame image, (left) taken at night
was brightened, enhancing both details and noise, or snow. Then to
further overcome the video defects in one frame, VISAR adds informatin
from multiple frames to reveal a person. To create the clarified image
(right), 50 frames of video which is less than 1 second on videotape
were added together.
Today, more than ever, advanced technology is the key to America's
economic growth and development. NASA's Commercial Technology Network is
at the forefront of developing relationships that allow aerospace
expertise and technology to be incorporated into the private sector. As
critical technologies for aerospace use are developed, NASA works with
industry by co-developing, partnering, and licensing to commercialize
these technologies and maximize their impact across the broadest range
of applications.
NASA strengthened the Commercial Technology Network's Technology
Transfer program in 1989 to make technology available to businesses,
universities, and other government agencies. Working with national and
regional technology transfer networks and our industrial partners, we
reduce development costs, accelerate production schedules, and deploy
existing technologies to points where they can make significant
differences for both companies and individuals. By sharing technology
with industry, NASA realizes two of its major goals: to strengthen
America's competitiveness in the world marketplace and ensure future
technological breakthroughs.
National needs for quality, durability, value, and environmental
protection benefit from NASA's drive to improve on all these fronts.
Across the agency, researchers are applying aerospace technologies in
conventional and unconventional ways, stretching the boundaries and
creating new applications for a host of new materials, processes, and
inventions, many of which find their most promising uses outside the
traditional aerospace applications.
NASA works directly with industry to develop many aircraft technologies,
but we also develop technology for launch vehicles, spacecraft, rocket
engines, pumps, turbines, nozzles, and injectors. Insulation, coatings,
electronic components, and even software emerge from NASA's efforts in a
steady stream, and almost all are available for use by American
industry.
As we move into the 21st century, NASA is seizing the technological high
ground, and bringing the opportunities that come from it to America's
industries and people. Following are brief examples of technologies
developed for NASA applications outside of aeronautics. The
commercialization of these technologies has provided benefits to the air
transportation industry in a variety of applications. As examples, we
have selected technologies that have been applied to airports and their
operations.
Reusable Surface Insulation
Advanced Flexible Reusable Surface Insulation was developed by Ames
Research Center to protect the Space Shuttle from the searing heat that
engulfs it on reentry into the Earth's atmosphere. Hi-Temp Insulation,
Inc., has adapted this Space Shuttle program technology for commercial
use.
NASA-assisted improvements to the insulation material gives it the
ability to withstand heating and cooling cycles, rapid and fluctuating
temperature changes, continuous vibration and gravitational stress, and
contact with aircraft engine contaminants.
A Fire Protection Division of Hi-Temp Insulation has been established,
offering the first suit designed exclusively by and for aircraft rescue
fire fighters. The suit offers great mobility, comfort, and flexibility
while weighing far less than other heat-protecting apparel. From the
inside out, the suit retards heat, scalding steam, flammable fumes, and
molten liquids.
Thermal Packaging
Aluminized polymer film used in spacecraft as a radiation barrier to
protect both astronauts and delicate instruments now has many different
applications.
The packaging reflects outside heat away from contents inside the
container. Spinoff applications of the material include aluminized
shipping bags, food cart covers, medical bags, gel packs, insulated
panels, and express mailers.
Airline Operations Aid
C Language Integrated Production System (CLIPS), a NASA-developed expert
systems program, is used by American Airlines for three purposes: as a
rapid prototyping tool; to develop production prototypes; and to develop
production applications. An example of the latter is CLIPS' use in "Hub
S1AAshing," a knowledge-based system that recommends contingency plans
when severe schedule reductions must be made. Hub S1AAshing has replaced
a manual, labor-intensive process. It saves time and allows operations
control coordinators to handle more difficult situations. Because the
system assimilates much of the information necessary to facilitate
educated decision making, it minimizes negative impact in situations
where it is impossible to operate all flights.
3D Audio System
Research into virtual reality led to the development of the Convolvotron
(manufactured by Crystal River Engineering), a high-speed digital audio
processing system that delivers three-dimensional sound over headphones.
It consists of a two-card set designed for use with a personal computer.
The Convolvotron's primary application is presentation of 3D audio
signals over headphones. Four independent sound sources are filtered
with large time-varying filters that compensate for motion. The
perceived location of the sound remains constant. Possible applications
are in air traffic control towers or airplane cockpits, hearing and
perception research, and virtual reality development.
Traffic Monitor
The X-15 "Eye in the Sky," a traffic monitoring system, incorporates
NASA imaging and robotic vision technology. A camera or "sensor box" is
mounted in a housing. The sensor detects vehicles approaching an
intersection and sends the information to a computer, which controls the
traffic light according to the traffic rate. Jet Propulsion Laboratory
technical support packages aided Mestech in developing the system. The
X-15's "smart highway" can also be used to count vehicles on a highway
and compute the number in each lane and their speeds, important
information for freeway control engineers. Additional applications are
in airport and railroad operations. The system is intended to replace
loop-type traffic detectors.
Environment Monitor and Explosives Detection
When Viking landers touched down on Mars equipped with a variety of
systems to conduct automated research, each one carried a compact but
highly sophisticated instrument for analyzing Martian soil and
atmosphere. The instrument called a Gas Chromatography/ Mass
Spectrometer (GC/MS) had to be small, lightweight, shock resistant,
highly automated and extremely sensitive, yet require minimal electrical
power. Viking Instruments commercialized this technology and targeted
their primary market as environmental monitoring, and especially the
monitoring of toxic and hazardous waste sites. Waste sites often contain
chemicals in complex mixtures, and the conventional method of site
characterization, taking samples on-site and sending them to a
laboratory for analysis, is time consuming and expensive. Other
terrestrial applications are explosive detection in airports, drug
detection, industrial air monitoring, and medical metabolic monitoring
for military, chemical warfare agents.
Airline Wheelchair
Few people who use wheelchairs travel by air because of the difficulties
in moving through the airplane cabin. A cooperative program involving
several organizations has led to a wheelchair that is capable of moving
through the narrow aisle of an airliner to move passengers to their
seats and give them access to the lavatories. One of the prototypes was
designed by the University of Virginia Rehabilitation Engineering Center
with help from NASA's Langley Research Center. Langley applied aerospace
technology in structural analysis and materials engineering. The
wheelchair is stable, durable, and easy to handle. It is made of
composite materials, weighs only 17 pounds, and can support a 200-pound
person. The chair folds easily for stowage when not in use.
Fuel-Efficient Buses
A government, industry, and academic cooperative is developing an
advanced hybrid electric city transit bus. Goals of this effort include
doubling the fuel economy of buses currently in service and reducing
emissions to one tenth of EPA standards.
A government, industry, and academic cooperative is developing an
advanced hybrid electric city transit bus.
Enhanced Video Images
The new NASA software, VISAR, can make valuable clues visible in videos
taken in low light. The single frame image (left) taken at night was
brightened, enhancing both details and noise, or "snow." Then, to
further overcome the video defects in one frame, VISAR adds information
from multiple frames to reveal a person. To create the clarified image
(right), 50 frames of videoÐwhich is less than one second on
videotapeÐwere added together.
NASA POC:
Dr. Robert Norwood
(202) 358-2320
rnorwood@hq.nasa.gov
