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International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B5. Istanbul 2004 
  
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Figure 1: Data processing. 
In the past digital terrain models (DTM) and geographic 
information systems (GIS) were developed isolated from each 
other. Both tools exist for about 30 years. The applications of 
today require more and more the three-dimensional reference 
surface for GIS, although temporary aspects demand for four 
dimensions including time as additional reference parameter. 
Most applications nowadays use 2D GIS for display, storage 
and analyses. But many applications require a model of the 
surface to calculate the height or the slope at certain points. 
Many GIS have additional terrain modellers to make use of 
height data in form of a regular grid or a triangulated irregular 
network (TIN). 
To add a digital terrain model to a GIS results only in a 2.5D 
GIS because it is not possible to model a solid. A simple and 
convenient way is to add descriptions of man-made objects like 
buildings to planimetric objects and attaching them to the 
surface. In CAD applications different solid models are 
available. 3D GIS may thereby provide a more realistic 
representation of the modelled world. Some draw-backs are 
more expensive data management and the problem of data 
acquisition. Normally you can only expect to extract the 
(average) height of buildings and not an exact reconstruction of 
the building (Fritsch and Schmidt, 1995). 
We have two kinds of databases: the one who has the graphical 
and geometrical data and the other who has the alphanumeric 
data related to the graphical data. The first one will be 
generated from the photogrametric digital system or from other 
graphical external files (like digitized plans, amateur 
photographs etc.). The second one will be handled with the 
DBMS ACCESS. Both databases will be linked and managed 
together by the GIS software Arc View 3.2, creating the 
information system. 
Objects are being built by linking spatial data (point, lines or 
polygons that are defined by geometry and topology) with non- 
graphic information in GIS. Coverage, also called as layer, is 
the basic unit of storage in Arc/Info. In this study Arc/Info has 
been used for the establishment of topology of the coverage. 
Then the coverage has been imported to Arc View software. 
This software has been produced as a vector based GIS but also 
it has limited use of raster base data as well. In addition to 
several querying and analysis advantage, the result of these 
attributes. 
Digital data in Dgn format has 25 different layers. These digital 
data were transferred into AutoCAD format and number of 
these layers reduced in AutoCAD (Duran and Toz, 2002) 
  
Also some of non-topographic information for feature 
(attributes) such quarter name, street name, door number, 
building functionality, basement, medium floor, roof, total 
floor, building condition, registration, building name, 
construction date, financer, architecture etc. were stored in the 
database table. Afterwards digital terrain model (DTM) of study 
area was being produced and captured with orthophoto in Arc 
View software. This model is shown Figure 2. 
  
  
  
Figure 2. DTM of study area captured with orthophoto and, 
showing part of attributes table for the monastery of Christ 
Pantepoptes 
Multimedia refers to the use of computers to deliver 
information using a combination of media types such as text, 
graphics, audio, video, and animation. Multimedia GIS on the 
internet provides the comprehensive documentation and 
management of cultural heritage. Multimedia GIS based on 
Web allows the user to access a wide range of geo referenced 
multimedia data (e.g., simulations, images, and videos) 
(Prakash, 1998). Figure 2 displays data from different sources 
including multimedia data are stored into the database. 
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Figure 2: Different kinds of data from various sources into 
database. 
VRML for visualising in 3D offers a platform and software 
independent file format. Users can easily interact with a 3D 
model in this form, walking or flying around it. VRML can also 
be viewed on the web. In this study, Cosmo VRML plug-in 
which is available free was used. Virtual reality model of the 
area is shown in Figure 3.