2.2 Data capture for the digital terrain model 
The national DTM with an average point density of 
50 m has been continuously updated since 1988 
and upgraded with structural information. Scale: 
1:15,000. Sampling method: grid of 50 m and 
supplementation of relief structures (break lines, 
form lines, singular points). 
For revision purposes and in support of the data 
correction, the contour lines are calculated by 
means of the SCOP program after compilation, and 
the images are superimposed on the stereo model. 
At present, the compilation status according to the 
current method amounts to approx. 30 % of the 
Austrian territory. 
2.3 Data capture for the topographic model 
The topographic model (TM) is a digital landscape 
model. It represents the earth's surface according to 
topographic aspects and consists of primary data in 
vector form which have not been changed by carto- 
graphic procedures such as generalization and sym- 
bolic feature codes. The structure of the landscape 
is defined in an object type catalogue according to 
object ranges, object groups and object types. A 
more detailed description of the objects is provided 
by means of integration with attributes. 
Apart from manual digitizing of 1:10,000 ortho- 
photos, digital compilation of aerial images (approx. 
1:15,000 or 1:30,000) is also used for continuous 
updating and useroriented supplementation, 
especially in the object range "traffic". 
2.4 Maintenance and application of the digital 
elevation model - data base (DEM-DB) 
At present, a total of approx. 105 individual points 
from photogrammetric compilation are maintained 
in a data base together with structural information. 
Besides the original data, fully interpolated grids (25 
m) are also maintained and recalculated auto- 
matically on every update of the original data. Thus, 
grids with any randomly-selected grid size can be 
derived at any time for the data output. 
The most important application of the digital 
elevation model is the production of orthophotos 
which are primarily. used for the further updating of 
the topographic map 1:50,000 and the continuous 
updating of the topographic model. These ortho- 
photos have been produced digitally since 1994. A 
total of some 1,500 orthophotos are produced 
annually with scales ranging from 1:5,000 to 
1:25,000. Further applications of the DEM-DB 
include the derivation and output of contour line 
plans, perspective views and hill shading. 
2.5 Technical hardware: 
5 Wild PUGx point transfer devices; 1 Leica BC3 
analytical workstation (aerotriangulation); 8 Leica 
BC3 analytical workstations with RISIS image 
superimposition systems (DEM sampling and topo- 
graphic model); 1 HP 715/50 workstation (Digital 
Elevation Model Data Base); 1 PS/1 photo scanner 
(used jointly with University of Technology and 
2 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B6. Vienna 1996 
University of Agriculture, Vienna); 1 Digital photo- 
grammetric workstation (Image Station of Inter- 
graph) for orthophoto production; 8 Graphic work- 
stations (PC 486, PC Pentium) 
3 Cadastral Photogrammetry (Com. IV) 
The division of cadastral photogrammetry carries 
out the applications for cadastral purposes on a 
national level. Depending on the posed problem the 
method of aerial photogrammetric compilation 
supports the 
— determination and demarcation of types of soil 
exploitation 
— determination of feature lines and feature points 
— quality control and quality improvement of the 
digital cadastral map. 
Its tasks also include photogrammetric restitutions 
from historical flight missions for the documentation 
of historical topographic facts and photogrammetric 
compilations of topographic cadastre feature lines 
for administrative boundaries. 
The following basic information is applied to per- 
form these tasks: 
— Scale 1:10,000 colour photographs for the photo- 
grammetric compilation of buildings and feature 
lines. 
— Scale 1:15,000 colour infrared photographs for 
the photogrammetric compilation of land-use 
boundaries and feature lines. : 
= Scale 1:30,000 B/W photographs for the photo- 
grammetric compilation of those areas which are 
not yet included in the project of the digital 
cadastral map. In this case the cadastral map is 
updated for the valuation of farm land: i.e. up- 
dating of boundaries for the demarcation of agri- 
culturally cultivated areas from uncultivated 
areas. 
For preparation of the photogrammetric compi- 
lation, enlargements and transparencies are 
delivered to the respective local surveying offices in 
order to establish an interpretation key for the 
various types of cultivation. The areas to be 
updated are interpreted and depicted in the aerial 
photograph enlargements. The aerial photographs 
are classified in a stereo model according to given 
object classes and digitally analyzed. The digital 
results are transferred to the local surveying offices 
after the appropriate processing and serve for the 
evaluation of the digital cadastral map. 
The technical equipment of the division is: 
10 Leica BC3 analytical workstations with RISIS 
image superimposition systems; 4 Graphic work 
stations (PC 386, PC 486, PC Pentium); 1 PC 386 
linked to the real estate data base 
4 Remote sensing (Com. IV) 
Combined with a geographic information system, 
three remote sensing systems were put into 
operation at the end of 1995. Fields of activities: use 
of remote sensing data for topographic mapping as 
well as the interpretation of land use and land cover 
  
  
   
  
  
  
   
  
   
   
  
  
   
  
  
   
   
   
   
   
  
   
  
   
   
  
   
   
  
   
   
   
   
   
  
  
   
    
  
  
    
  
  
   
   
  
  
   
  
  
   
  
   
  
  
   
   
   
   
    
   
for 
WOI 
This 
app 
dep 
to 
info 
proc 
part