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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B4. Istanbul 2004
Fig. 5: Left: Terrain Model derived from HRSC-images (nadir, forward, and backward) acquired during orbit 18. Heights in
this model span a range of approx. 3 km and are represented by image brightness. Right: Topographic profiles pl, p2, p3, and
p4 extracted from this model and from a corresponding MOLA gridded terrain model.
6. PERFORMANCE OF SRC
The SRC camera with its large focal length (Table 1) is
intended to provide high resolution detail within the
context of the large HRSC scenes. We selected SRC images
from orbit 37 and orbit 68 for analysis (Figs. 6, 7). Both,
SRC images and HRSC context images were reprojected to a
reference HRSC terrain model. The SRC images were
mosaicked using the nominal time tag, orbit, and spacecraft
pointing data. The SRC images fit nicely into the predicted
location within the HRSC context. Only minor offsets in the
across-track direction of < 100 SRC pixels are observed
(presumably due to offsets from the nominal co-alignment
between the cameras), which require small shifting to make
the SRC and HRSC images precisely fit. (However, some few
SRC images suffer from large time-tag errors which place the
SRC images into completely erroneous locations of the
HRSC context.)
Using a digital image matcher as a tool for position
measurement of features in the images, we made a rough
estimate that the magnification factor of SRC with respect to
HRSC is 4.33, corresponding to an effective focal length of
974.5 mm. This value is in good agreement with the
nominal focal length (Table 1), but it is 1.5% lower than the
value that has been directly measured on the ground. The
SRC position (position of the upper left corner of the SRC
image) within the HRSC scene is re-estimated to be at pixel #
2694.0. The effective image resolution improvement over
HRSC (see Fig. 5b), estimated to be approx. a factor of 2,
remains below the expectations judging from the images
that have been examined. The quality of the SRC images
appears to vary from orbit to orbit or even within orbits, an
effect, which is currently being studied.
