and geophysical and geochemical surveys. This will lead to
more rapid indication of site-selective areas for specific
examination and eventual drilling and testing.
Satellite Remote Sensing for Energy and Mineral Resources
The international industrial geological community is represented
by The Geosat Committee, which was created in 1976 to demonstrate
the potential benefit of Landsat and future geologically-oriented
remote sensing systems. Geological satellite remote sensing
capabilities to be added to the current Landsat systems and data
base during the 1980's include fixed and pointable digital stereo-
Scopic coverage, increased spatial resolution to 10 meters IFOV
(instantaneous field of view), rock/soil sensitive spectral bands
in the short wave and thermal infrared portions of the electro-
magnetic spectrum, and Synthetic Aperture Radar (SAR). Because
of increased digital data rates associated with these improve-
ments to the Landsat-type satellite remote sensing systems, ade-
quate ground segment systems for digital data acquisition, pro-
cessing, archiving, and distribution must be upgraded to handle
the data and provide for the growing user market which will
develop from the availability of these new data and the geological
and other data derived therefrom.
These improved satellite remote sensing capabilities have been
studied and are demonstrated by the joint Geosat-NASA Test Case
Program, which has made extensive remote sensing studies over
three porphyry copper, two uranium, and three oil and gas deposits
in the U.S. from 1977 through 1982. These studies have utilized
various remote sensing techniques provided by NASA and the Jet
Propulsion Lab who flew them over these sites of known geology
provided by The Geosat Committee. The site geologic, geophysical,
and geochemical information was provided by several Geosat companies.
Studies of these systems have been compared, and, in some cases,
integrated for maximum geological information. Technique compari-
sons and geological assessment of these remote sensing capabilities
have been jointly studied by geologists from NASA, Jet Propulsion
Lab, the U.S. Geological Survey, and from several participating
Geosat Committee companies. This multi-million dollar program and
its study will be published in early 1983 and will be available
through NASA, the AAPG, and The Geosat Committee.
New Satellite Systems for the 1980's
Several global satellite systems to be developed during the 1980's
will provide added geological capabilities to the growing Landsat
digital data base. The U.S. LANDSAT D was successfully launched
and thus became LANDSAT 4 on July 16, 1982. After NASA evaluation,
this system will provide both multispectral scanner (MSS) and
Thematic Mapper (TM) scanner data, which will improve both the
spatial and spectral resolution coverage provided by Landsats
1,2, and 3. The Thematic Mapper, in addition to having four bands
(Bands 1-:
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