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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B6. Istanbul 2004 
also the subject of research. New algorithms for photograph 
classifications were developed at the Faculty of Civil 
Engineering of the CTU Prague. These algorithms use either 
image segmentation and object-oriented analysis, or automatic 
texture classification using comparison of image textures with 
database image textures. 
4. COMMISSION IV: SPATIAL INFORMATION 
SYSTEMS AND DIGITAL MAPPING 
Spatial information systems continued in important progress 
that had begun in 90s of the 20" century. The activities can be 
characterized by two new phenomena. The newly created 
Ministry of Informatics tries to coordinate private and state 
organisations in close co-operation with the Czech Association 
for Geoinformation to follow Open GIS philosophy. Spatial 
information systems are more and more transferred from stand- 
alone computers and company servers to Internet. Internet 
enables public users to visualize, order, buy or share various 
data and data sets. It is another important phenomenon of the 
last 4-year period. 
There are two state mapping agencies — civilian and military. 
Since last year they have been collecting colour ortophotos for 
map updating as well as for IACS purposes. The major part of 
these ortophotos are used in public administration and for 
various mapping purposes. Both mapping agencies have vector 
and raster versions of their maps in several scales. Vector map 
data of both mapping agencies are stored in geodatabases. 
Civilian maps in raster format are distributed also via Internet. 
The accuracy of master database of state map series is 
equivalent to the map content of 1 : 10 000 scale. It is a source 
for map generalization for 1 : 25 000 and 1 : 50 000 scale. The 
civilian database ZABAGED has been being updated including 
3D data since 2000. Spatial information systems in the Czech 
Republic use both top world software, and various Czech 
software. The military database DMU 25 serves as a source 
data for crises management. Exchange formats were defined 
for many data types. Private companies control commercial 
part of map production, e.g by offering tourist maps and 
atlases. All cadastral maps are in raster format. Their 
vectorization has not been finished yet. It is a long process due 
to many problems connected with the transformation of 
cadastral maps in fathom scale. It is the reason why only 25 
per cent of cadastral maps in vector form is available in 2004. 
5. COMMISSION V: CLOSE-RANGE VISION 
TECHNIQUES 
There are no legal standards for  photogrammetric 
documentation of historical monuments in the Czech Republic. 
Close range  photogrammetry for documentation of 
architectural or historical objects is often used in last years. 
However, the number of projects is still small. Investors 
usually press budgets of object documentation due to 
economical reasons on minimum level. The competency to call 
for tenders was transferred to regional administration after 
reorganisation of the State Institute of Care of Historical 
Monuments (as an important customer) followed by several 
changes in legislation. Additional documentation is required 
(easy rectified photographs in *tiff or *bmp formats) and 
vector maps (*dxf or *dwg format), orthophotos (usually not 
true orthophoto). 3D models or rendered models were required 
229 
only in special cases. Animation or Internet presentations were 
newly produced (avi, vrml), but only for business or teaching 
reasons. Aerial orthophotos are used for documentation of 
large sites. 
There are only several organisations and technical universities 
having precise photogrammetric cameras (UMK or réseau 
cameras such as Rollei) in the Czech Republic. Digital camera 
applications are not too frequent (due to resolution and 
calibration), but there are more projects in close range 
photogrammetry at universities. 
Single image photogrammetry is often used for facades. 
Stereoscopic vectorizations on photogrammetric workstations 
(ImageStation, ImageStation SSK, PhoTopol, Erdas, Helava, 
VSD) presents basic technology up to now. Intersection 
photogrammetry is used in special cases with Rollei-CDW or 
non-metric cameras and PhotoModeler SW. Fast and cheap 
techniques are still more favourite (demands on their accuracy 
are not very high). The development of non-photogrammetric 
techniques is evident. Laser scanning (4 installations in the 
Czech Republic) and 3D scanners based on triangulation 
principle (1 installation) are meant in these techniques. 
However, their practical usage in the cultural heritage is at the 
beginning (due to their price, and problems with outputs). 
Customers are used to work with vector maps, and photos or 
photomaps). There are more special techniques applicable only 
in special cases (restoration of wall paintings- IR and UV 
imaging, archaeological applications: GP-radar, thermovision 
and others) 
Close range vision techniques are connected also with other 
branches, which usually do not use these methods. One of 
them was a moment when the photogrammetric control proved 
the decision of one sport judgement at Olympic Games in 
Sydney. The judgement concerned overstep of Erki Nool. The 
photogrammetry proved that the jumper did not overstep and 
gained his gold medal by right. 
Another photogrammetric application can be found in co- 
operation with police. Photographs are often processed by 
photogrammeters to describe details of accidents exactly. 
Biomechanics is another sphere where photogrammetric 
evaluation is being used. The co-operation of the Faculty of 
Civil Engineering of the CTU with the Faculty of Physical 
Education and Sport of the Charles University in Prague was 
concentrated on research of foot changes during pregnancy and 
after pregnancy in the first phase of co-operation. The 
photogrammetry was used for 3D modelling of plaster 
footprints. The methodology for change detection of these 
footprints was also developed. 
6. COMMISSION VI: EDUCATION AND 
COMMUNICATIONS 
Photogrammetry forms a part of university education at three 
Czech universities. Students get practice in historical and 
modern ways of photogrammetry during their study of geodesy 
or geomatics. Their experience is open to public by their 
presentations in Internet database version where documents 
about small historical monuments they have collected and 
processed are stored. The project called FOTOPA presents 
already several hundreds of small such objects from the 
country. 
Remote sensing is taught at four universities. Students arc 
familiar with basic information about limits and possibilities of 
the method.