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Proceedings Paper

Geostationary Imaging Fourier Transform Spectrometer (GIFTS): science applications
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Paper Abstract

A revolutionary satellite weather forecasting instrument, called the "GIFTS" which stands for the "Geostationary Imaging Fourier Transform Spectrometer", was recently completed and successfully tested in a space chamber at the Utah State University's Space Dynamics Laboratory. The GIFTS was originally proposed by the NASA Langley Research Center, the University of Wisconsin, and the Utah State University and selected for flight demonstration as NASA's New Millennium Program (NMP) Earth Observing-3 (EO-3) mission, which was unfortunately cancelled in 2004. GIFTS is like a digital 3-d movie camera that, when mounted on a geostationary satellite, would provide from space a revolutionary four-dimensional view of the Earth's atmosphere. GIFTS will measure the distribution, change, and movement of atmospheric moisture, temperature, and certain pollutant gases, such as carbon monoxide and ozone. The observation of the convergence of invisible water vapor, and the change of atmospheric temperature, provides meteorologists with the observations needed to predict where, and when, severe thunderstorms, and possibly tornados, would occur, before they are visible on radar or in satellite cloud imagery. The ability of GIFTS to observe the motion of moisture and clouds at different altitudes enables atmospheric winds to be observed over vast, and otherwise data sparse, oceanic regions of the globe. These wind observations would provide the means to greatly improve the forecast of where tropical storms and hurricanes will move and where and when they will come ashore (i.e., their landfall position and time). GIFTS, if flown into geostationary orbit, would provide about 80,000 vertical profiles per minute, each one like a low vertical resolution (1-2km) weather balloon sounding, but with a spacing of 4 km. GIFTS is a revolutionary atmospheric sensing tool. A glimpse of the science measurement capabilities of GIFTS is provided through airborne measurements with the NPOESS Airborne Sounding Testbed - Interferometer (NAST-I).

Paper Details

Date Published: 26 December 2006
PDF: 13 pages
Proc. SPIE 6405, Multispectral, Hyperspectral, and Ultraspectral Remote Sensing Technology, Techniques, and Applications, 64050E (26 December 2006); doi: 10.1117/12.696726
Show Author Affiliations
W. L. Smith, Hampton Univ. (United States)
Univ. Of Wisconsin, Madison (United States)
H. E. Revercomb, Univ. of Wisconsin, Madison (United States)
D. K. Zhou, NASA Langley Research Ctr. (United States)
G. E. Bingham, Utah State Univ. (United States)
W. F. Feltz, Univ. of Wisconsin, Madison (United States)
H. L. Huang, Univ. of Wisconsin, Madison (United States)
R. O. Knuteson, Univ. of Wisconsin, Madison (United States)
A. M. Larar, NASA Langley Research Ctr. (United States)
X. Liu, NASA Langley Research Ctr. (United States)
R. Reisse, NASA Langley Research Ctr. (United States)
D. C. Tobin, Univ. of Wisconsin, Madison (United States)


Published in SPIE Proceedings Vol. 6405:
Multispectral, Hyperspectral, and Ultraspectral Remote Sensing Technology, Techniques, and Applications
William L. Smith; Allen M. Larar; Tadao Aoki; Ram Rattan, Editor(s)

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