The International Space Station. Credit: NASA
Friday, August 31, 2012
Wednesday, August 29, 2012
Sunday, August 26, 2012
FIRST MAN ON THE MOON PASSES AWAY
John H. Glenn Research Center
Lewis Field
Cleveland, Ohio 44135
Neil A. Armstrong, the first man to walk on the moon, was born in Wapakoneta, Ohio, on August 5, 1930. He began his NASA career in Ohio.
After serving as a naval aviator from 1949 to 1952, Armstrong joined the National Advisory Committee for Aeronautics (NACA) in 1955. His first assignment was with the NACA Lewis Research Center (now NASA Glenn) in Cleveland. Over the next 17 years, he was an engineer, test pilot, astronaut and administrator for NACA and its successor agency, the National Aeronautics and Space Administration (NASA).
As a research pilot at NASA's Flight Research Center, Edwards, Calif., he was a project pilot on many pioneering high speed aircraft, including the well known, 4000-mph X-15. He has flown over 200 different models of aircraft, including jets, rockets, helicopters and gliders.
Armstrong transferred to astronaut status in 1962. He was assigned as command pilot for the Gemini 8 mission. Gemini 8 was launched on March 16, 1966, and Armstrong performed the first successful docking of two vehicles in space.
As spacecraft commander for Apollo 11, the first manned lunar landing mission, Armstrong gained the distinction of being the first man to land a craft on the moon and first to step on its surface.
Armstrong subsequently held the position of Deputy Associate Administrator for Aeronautics, NASA Headquarters,
Washington, D.C. In this position, he was responsible for the coordination and management of overall NASA research and technology work related to aeronautics.
He was Professor of Aerospace Engineering at the University of Cincinnati between 1971-1979. During the years 1982-1992, Armstrong was chairman of Computing Technologies for Aviation, Inc., Charlottesville, Va.
He received a Bachelor of Science Degree in Aeronautical Engineering from Purdue University and a Master of Science in Aerospace Engineering from the University of Southern California. He holds honorary doctorates from a number of universities.
Armstrong was a Fellow of the Society of Experimental Test Pilots and the Royal Aeronautical Society; Honorary Fellow of the American Institute of Aeronautics and Astronautics, and the International Astronautics Federation.
He was a member of the National Academy of Engineering and the Academy of the Kingdom of Morocco. He served as a member of the National Commission on Space (1985-1986), as Vice-Chairman of the Presidential Commission on the Space Shuttle Challenger Accident (1986), and as Chairman of the Presidential Advisory Committee for the Peace Corps (1971-1973).
Armstrong was decorated by 17 countries. He was the recipient of many special honors, including the Presidential Medal of Freedom; the Congressional Gold Medal; the Congressional Space Medal of Honor; the Explorers Club Medal; the Robert H. Goddard Memorial Trophy; the NASA Distinguished Service Medal; the Harmon International Aviation Trophy; the Royal Geographic Society's Gold Medal; the Federation Aeronautique Internationale's Gold Space Medal; the American Astronautical Society Flight Achievement Award; the Robert J. Collier Trophy; the AIAA Astronautics Award; the Octave Chanute Award; and the John J. Montgomery Award.
Saturday, August 25, 2012
Tuesday, August 21, 2012
Monday, August 20, 2012
NASA PICKS REVOLUTIONARY SPACE TECH PROPOSALS FOR DEVELOPMENT
FROM: NASA
WASHINGTON -- NASA's Space Technology Program has selected five technologies that could revolutionize America's space capabilities. In March, NASA issued a call for proposal focused on sudden and unexpected innovations that hold a potential for providing a "game-changing" impact on the efficiency and effectiveness of the agency's space capabilities. NASA has selected the following proposals for funding:
--"Representing and Exploiting Cumulative Experience with Objects for Autonomous Manipulation," University of Massachusetts, Amherst. This technology could improve autonomous robotic operations using artificial intelligence during deep space missions. --"Lightweight High Performance Acoustic Suppression Technology Development," NASA's Jet Propulsion Laboratory, Pasadena, Calif. This technology could suppress acoustic environments during launch. By reducing vibrations by acoustic suppression during launch, the amount of prelaunch vibration stress testing for onboard instruments also could be reduced.
--"Fast Light Optical Gyroscopes for Precision Inertial Navigation," NASA's Marshall Space Flight Center, Huntsville, Ala. This technology could enhance navigation capabilities for spacecraft by improving the performance of existing gyroscopes by a factor of 1,000. --"EHD-Based Variable Conductance Thermal Interface Material," The Boeing Company, El Segundo, Calif. The development of this thermal material could provide better heat management for spacecraft. --"Membrane Enabled Reverse Lung," Oceaneering Space Systems, Houston. This technology could reduce the number of life support systems needed for astronauts.
"NASA's Space Technology Program is enabling our future in space by investing in revolutionary and game-changing technologies that could open new doors for how we live, work and investigate space," said Michael Gazarik, director of the program at NASA Headquarters in Washington. "We are confident these selected technologies, with their highly qualified research teams, will enable great new opportunities for the next chapter in NASA's innovation story."
The selected proposals take steps toward addressing critical technological barriers for advancing exploration and science missions, while also lowering the cost of other government and commercial space activities. Projects were selected through independent review of technical merit, alignment with NASA's Space Technology Roadmap priorities and the technology objectives identified by the National Research Council in its review of these roadmaps.
Awards range from $125,000 to $1.8 million, with a total NASA investment of approximately $6 million through 2015. NASA's Game Changing Development Program, located at the agency's Langley Research Center in Hampton, Va., is responsible for the management of these awards.
WASHINGTON -- NASA's Space Technology Program has selected five technologies that could revolutionize America's space capabilities. In March, NASA issued a call for proposal focused on sudden and unexpected innovations that hold a potential for providing a "game-changing" impact on the efficiency and effectiveness of the agency's space capabilities. NASA has selected the following proposals for funding:
--"Representing and Exploiting Cumulative Experience with Objects for Autonomous Manipulation," University of Massachusetts, Amherst. This technology could improve autonomous robotic operations using artificial intelligence during deep space missions. --"Lightweight High Performance Acoustic Suppression Technology Development," NASA's Jet Propulsion Laboratory, Pasadena, Calif. This technology could suppress acoustic environments during launch. By reducing vibrations by acoustic suppression during launch, the amount of prelaunch vibration stress testing for onboard instruments also could be reduced.
--"Fast Light Optical Gyroscopes for Precision Inertial Navigation," NASA's Marshall Space Flight Center, Huntsville, Ala. This technology could enhance navigation capabilities for spacecraft by improving the performance of existing gyroscopes by a factor of 1,000. --"EHD-Based Variable Conductance Thermal Interface Material," The Boeing Company, El Segundo, Calif. The development of this thermal material could provide better heat management for spacecraft. --"Membrane Enabled Reverse Lung," Oceaneering Space Systems, Houston. This technology could reduce the number of life support systems needed for astronauts.
"NASA's Space Technology Program is enabling our future in space by investing in revolutionary and game-changing technologies that could open new doors for how we live, work and investigate space," said Michael Gazarik, director of the program at NASA Headquarters in Washington. "We are confident these selected technologies, with their highly qualified research teams, will enable great new opportunities for the next chapter in NASA's innovation story."
The selected proposals take steps toward addressing critical technological barriers for advancing exploration and science missions, while also lowering the cost of other government and commercial space activities. Projects were selected through independent review of technical merit, alignment with NASA's Space Technology Roadmap priorities and the technology objectives identified by the National Research Council in its review of these roadmaps.
Awards range from $125,000 to $1.8 million, with a total NASA investment of approximately $6 million through 2015. NASA's Game Changing Development Program, located at the agency's Langley Research Center in Hampton, Va., is responsible for the management of these awards.
Friday, August 17, 2012
Thursday, August 16, 2012
Monday, August 13, 2012
Sunday, August 12, 2012
Friday, August 10, 2012
Tuesday, August 7, 2012
Monday, August 6, 2012
Sunday, August 5, 2012
NEW NASA SUPERCOMPUTER FACILITY SET TO ADVANCE EARTH RESEARCH
FROM: NASA
WASHINGTON -- NASA soon will open a new chapter of discovery using
enhanced Landsat Earth-observing data in a state-of-the-art,
high-performance computing and data access facility called NASA Earth
Exchange (NEX). This new facility is a virtual laboratory that will
allow scientists to tackle global Earth science challenges with
global high-resolution satellite observations.
After extensive development and testing, NASA is making the NEX
facility available to the research community for further research and
development. With NASA's state-of-the-art supercomputing capacity,
researchers can use NEX to explore and analyze large Earth science
data sets in hours rather than months. Scientists can produce
complex, interdisciplinary studies of world phenomena and share their
findings instantly on the NEX platform.
"Because of the large volume of high-resolution Landsat data,
scientists who wanted to study the planet as a whole prior to NEX
needed to invest tremendous amounts of time and effort to develop
high-end computational methods rather than focus on important
scientific problems," said Tsengdar Lee, high-end computing program
manager at NASA Headquarters in Washington. "NEX greatly simplifies
researchers' access to and analysis of high-resolution data like
Landsat."
This new facility boasts a large collection of global data sets and
analysis tools from NASA and other agencies, including surface
weather records, topography, soils, land cover and global climate
simulations. Using NEX, scientists now can fit Landsat scenes
together like a giant jigsaw puzzle to create snapshots of global
vegetation patterns containing more than a half-trillion pixels in
less than 10 hours. These global vegetation products, referred to as
the Normalized Difference Vegetation Index, complement the more
standard products from the Moderate Resolution Imaging
Spectroradiometer on NASA's Aqua satellite but with 10 times higher
resolution.
"The science community is under increasing pressure not only to study
recent and projected changes in climate that likely impact our global
environment and natural resources, but also to design solutions to
mitigate, or cope, with the likely impacts," said Rama Nemani, a
senior Earth scientist at NASA's Ames Research Center in Moffett
Field, Calif. "We want to change the research paradigm by bringing
large data holdings and supercomputing capabilities together, so
researchers have everything they need in one place."
Developed by a team at Ames, NEX combines Earth-system modeling,
remote-sensing data from NASA and other agencies, and a scientific
social networking platform to deliver a complete research
environment. Users can explore and analyze large Earth science data
sets, run and share modeling algorithms, collaborate on new or
existing projects and exchange workflows and results within and among
other science communities.
Scientists believe costs and time associated with research development
may be reduced significantly by allowing NEX members to collaborate
instantly in this type of large-scale supercomputing work
environment. For example, NEX may relieve researchers from
redundantly retrieving and integrating data sets and building
modeling analysis codes.
NEX uses Landsat data, which constitute a large collection of images
collected over 40 years by a series of satellite sensors. The
enhanced collection of Landsat data gives scientists the opportunity
to study and understand changes on a planetary scale, looking at
one-quarter acre at a time.
NASA, in cooperation with the Interior Department and its science
agency, the U.S. Geological Survey, launched the first Landsat
satellite in 1972. The resulting 40-year archive of Earth
observations from the Landsat fleet supports the improvement of human
and environmental health, biodiversity, energy and water management,
urban planning, disaster recovery and crop monitoring. The Landsat
program is jointly managed by NASA and the Interior Department.
WASHINGTON -- NASA soon will open a new chapter of discovery using
enhanced Landsat Earth-observing data in a state-of-the-art,
high-performance computing and data access facility called NASA Earth
Exchange (NEX). This new facility is a virtual laboratory that will
allow scientists to tackle global Earth science challenges with
global high-resolution satellite observations.
After extensive development and testing, NASA is making the NEX
facility available to the research community for further research and
development. With NASA's state-of-the-art supercomputing capacity,
researchers can use NEX to explore and analyze large Earth science
data sets in hours rather than months. Scientists can produce
complex, interdisciplinary studies of world phenomena and share their
findings instantly on the NEX platform.
"Because of the large volume of high-resolution Landsat data,
scientists who wanted to study the planet as a whole prior to NEX
needed to invest tremendous amounts of time and effort to develop
high-end computational methods rather than focus on important
scientific problems," said Tsengdar Lee, high-end computing program
manager at NASA Headquarters in Washington. "NEX greatly simplifies
researchers' access to and analysis of high-resolution data like
Landsat."
This new facility boasts a large collection of global data sets and
analysis tools from NASA and other agencies, including surface
weather records, topography, soils, land cover and global climate
simulations. Using NEX, scientists now can fit Landsat scenes
together like a giant jigsaw puzzle to create snapshots of global
vegetation patterns containing more than a half-trillion pixels in
less than 10 hours. These global vegetation products, referred to as
the Normalized Difference Vegetation Index, complement the more
standard products from the Moderate Resolution Imaging
Spectroradiometer on NASA's Aqua satellite but with 10 times higher
resolution.
"The science community is under increasing pressure not only to study
recent and projected changes in climate that likely impact our global
environment and natural resources, but also to design solutions to
mitigate, or cope, with the likely impacts," said Rama Nemani, a
senior Earth scientist at NASA's Ames Research Center in Moffett
Field, Calif. "We want to change the research paradigm by bringing
large data holdings and supercomputing capabilities together, so
researchers have everything they need in one place."
Developed by a team at Ames, NEX combines Earth-system modeling,
remote-sensing data from NASA and other agencies, and a scientific
social networking platform to deliver a complete research
environment. Users can explore and analyze large Earth science data
sets, run and share modeling algorithms, collaborate on new or
existing projects and exchange workflows and results within and among
other science communities.
Scientists believe costs and time associated with research development
may be reduced significantly by allowing NEX members to collaborate
instantly in this type of large-scale supercomputing work
environment. For example, NEX may relieve researchers from
redundantly retrieving and integrating data sets and building
modeling analysis codes.
NEX uses Landsat data, which constitute a large collection of images
collected over 40 years by a series of satellite sensors. The
enhanced collection of Landsat data gives scientists the opportunity
to study and understand changes on a planetary scale, looking at
one-quarter acre at a time.
NASA, in cooperation with the Interior Department and its science
agency, the U.S. Geological Survey, launched the first Landsat
satellite in 1972. The resulting 40-year archive of Earth
observations from the Landsat fleet supports the improvement of human
and environmental health, biodiversity, energy and water management,
urban planning, disaster recovery and crop monitoring. The Landsat
program is jointly managed by NASA and the Interior Department.
Friday, August 3, 2012
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