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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B5. Istanbul 2004
Figure 1. Image SPOT V - Iraq, Assur ruins
(Copyright SPOT Image, CNES 2002)
e Radiometric analysis: with the available tools the multi-
spectral image, which is aimed at drawing the land’s use
map and identifying the old construction material present
on the surface, is classified. Actually some agricultural
works (with plough) crumble the superficial part of the
buried structures, and consequently the surrounding land
has some traces of construction materials which could be
recognised through the different spectral firma.
» Interpretative analysis: it is a process developed by the
researcher on the basis of his/her own knowledge of the
historical and human settlements context of the area. The
working platform is the GIS/SIT one, and a wide database
with information collected from a bibliography and a
survey is available. In this phase the data received from the
satellite image could be positioned both on the spatial and
temporal dimension.
How relevant is the geometric accuracy of this analysis ? It is
surely quite relevant, but not so much as we could actually
imagine. Let’s analyse the reasons of this assertion.
The study of land is normally carried out at a medium-large
scale. On 1:5.000 scale, for example, the attended map's
accuracy in cartography is 1 meter, therefore it could be
compared with the pixel of the panchromatic Ikonos band. (Fig.
2)
Figure 2. Image Ikonos: ancient human evidence (wall)
(Copyright Space Imaging 2001)
However if we work with multi-spectral data, the pixel on the
ground measures 4 metres, therefore the localisation of each
pixel overcomes the defined planimetric tolerance.
In our applications we have verified the validity of the pan-
sharpening between the panchromatic band and the
multispectral ones, both from a metric and radiometric side.
Actually it has been applied in the surveys at 1:5.000 scale, and
also 1:2.000 scale with results that we consider interesting.
Even if we are aware of the possibility of some errors, it is often
necessary the use of the satellite image over the limit of its own
resolution: therefore the georeferentation, which is acceptable
for a working scale 1:5.000, could not be acceptable for a larger
working scale.
Which data (historical and not) could be considered for the
comparison with information received from the study of the
satellite image?
In many cases these data are characterised by a relevant
topographic imprecision, due to direct measurements carried out
with a large approximation and often without a cartographic
framework of reference.
Information collected more recently is more reliable, even if
most of the available material is characterised by a position data
rather imprecise.
Therefore our question is: how has to be the level of accuracy of
the GIS/SIT system which includes all this information ?
Most probably the medium planimetric error could not only
referred to the working scale (with the often used criteria of
error due to graphicism), but it will be compared by the
accuracy which is specific for each group of information.
In this perspective the georeferentation of the satellite image
maintains a relevant role, but the accepted tolerance could be
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