library which 
presented by 
in a distance 
'esented with 
also possible 
ters as slope, 
zed database 
raphic maps. 
reliable map 
mension are 
mensions has 
; category of 
monuments, 
s developed. 
: 3D symbols 
of details for 
bol designing 
is a matter of 
s with one 
oads that are 
which looks 
ag 
  
iade objects 
ation library. 
f other areas 
sign several 
visualization 
' GKB25 can 
'rested area. 
    
# 
ualization of 
  
S. CONCLUSIONS 
In the future all datasets, used in cartographic models, will be 
stored in a single spatial database. Symbolization of 
cartographic model will be reduced and will include only 
importing of spatial data. In the future also library that will 
enable photorealistic visualization will be designed. Quality of 
such visualization will depended more on quality of available 
spatial data than capability of visualization software. 
REFERENCES FROM BOOKS: 
Bertin, J., 1974: Graphische Semiologie. Walter de Gruyter, 
Berlin. 
Petrovic, D., 2001: The Principles of Designing Three- 
Dimensional Map Presentations. Doctoral thesis, University of 
Ljubljana, Faculty of Civil and Geodetic Engineering. 
Rojc, B., 1986: A contribution to the map content perception 
research. Doctoral thesis, University of Ljubljana, Faculty of 
Civil and Geodetic Engineering. 
Radovan D., Zore I., Petrovié D., Pegan Zvokelj B., Kosmatin- 
Fras M., Sever G., Brajnik M., 1996: Cartographic database 
quality testing, Institute of Geodesy, Cartography and 
Photogrammetry and Academa, Ljubljana. 
REFERENCES FROM OTHER LITERATURE: 
Bandrova, T., 1998: Cartographic Modelling of the Real World. 
Proceedings of E-mail Seminar of Cartography, Volume 1. 
University of Architecture, Civil Engineering and Geodesy, 
Sofija. 
International ~~ Cartographic Association (ICA), 2000. 
Organisation and activities 1999 - 2003. Netherlands 
Cartographic Society (NVK publikatiereeks). 
201