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Title
Remote sensing for resources development and environmental management
Author
Damen, M. C. J.

-radar measurements
sts for film images,
ave created real time
lodel. An equivalent
;es must be based on
kR an initial step has
opic. Most efforts
ulation of raw SAR
i the help of existing
rhis approach differs
)-called SAR-product
et al. (1986). For
: product simulation
ad "geo-coding" are
There is no need to
n dealing with SAR.
urlander (1986) and
the system that is
tional and has been
x 8000 pixels.
has so far not been
ty as part of "geo-
ts of terrain slopes
t non-similar images
of individual images,
mly now becoming a
print).
and height data from
tereo plotter and not
t-up or SAR mono
id to be available to
by interfacing SAR-
al data input systems
rs.
images from various
airborne ESA SAR-
t-B as well as other
ting analogue/digital
95000 color display
re yet with analogue
:rn DSR-11.
Seasat exploitation
;ading to ice motion
982). Seasat images
s (Raggam, 1985).
iometric rectification
nd for the extraction
1, submitted).
ate radargrammetric
gery. The attention
1986a,b), and on the
1., 1986).
was the subject of
i sets were examined
in Laboratory (JPL)
om ESA’s SAR-580
ition.
ware components to
vidual or overlapping
e components into a
railable.
is tools and discusses
sntation status by the
lational field. It is
argued that an integrated system for SAR image exploitation is needed.
Such system can support the various up-coming satellite SAR missions
such as NASA’s SIR-C, Magellan to planet Venus and EOS; ESA’s
ERS-1 and follow on; Japan’s ERS-1; and it can support the use of
digital aircraft SAR, such as from JPL and other sources.
Acknowledgement
Work on the SAR-processing components has been sponsored by
various agencies and contracts, including the European Space Agency
and Jet Propulsion Laboratory. Similarly the current transfer into a
more operational mode is again encouraged and sponsored by the
same parties. This support is greatly appreciated.
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