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WERE C. nS Ore SLI LS SSC SO SE SS E
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of the image.
The development of aerial photography is based on selecting
such natural and technological conditions which enable to obtain
optimal information necessary for the effective solving of cer-
tain geological problems, i.g. taking photographs at low sun ele-
vations or even in the twilight, acquiring multiband images etc.
The working out of the multiband photo camera MKPF-6 designed
by specialists of the USSR and GDR and produced by the Karl Zeiss
Jena Interprise (GDR), as well as new processing devices (multi-
band projector MSP-4) has greatly contributed to the improvement
of the geological interpretation and acquisition of new informa-
tion due to false color imaging in different spectral bands and
producing color composite images.
Optical-photographic and electronic transformation techniques
are very important for interpretation of aerial photographic ima-
ges, which greatly add to the interpretation procedure, make it
possible to identify informative elements of images and enable to
analyse them. Methods of the photographic transformation are es-
sential, according to which gradation and geometric characteristics
are transformed so that typical distortions of informative photo
pattern elements are removed or infommative elements are enhanced
by obscuring the masking background. Such transformations may be
carried out by using traditional instruments available in any pho-
to laboratory. Additional important information on the tectonic
pattern of the territory under study may be obtained when using
the Coherent Optical Device to construct rose diagrams of tectonic
features, to assess their extensions, spacing, density etc.
Problems of the computer-based automation of the image inter-
pretation procedure present a particular interest. Computerized
photogrammetric processing of aerial photographs in the course of
mapping a territory and implementation of different projects is
being successfully developed.
The obtaining and application of stereoscopic ortopho tographs
which may greatly contribute to the geological mapping present a
particular interest.
The geological interpretation procedure is rather complicated
because it is very difficult to work out the appropriate algorithm
and construct a mathematical model due to different geological and
geographical environments in which certain geological objects, even
well identified from space images, occur. Moreover, many geological
objects are not directly exhibited on photographic images and are
identified indirectly from their indicators, due to which fact a
geoindication model of the geological object is to be primarely
constructed on the basis of its photographic image(1).
Some steps of the interpretation process may, certainly, be
implemented by a computer-based system, however the results obtain-
ed at these steps should be checked and the final decision taken
505
nm PAS ERA MEET Ll
pe Ee 1
