monastery made the building seem realistic (Ozaslan and Seker,
2001).
After creating 3D model and stacking photos on the building,
the last step was rendering (Fig. 3). Rendering a scene or
scenes (animation) by using 3D StudioMAX is possible. It is
possible to export the project into file formats jpg, bmp, eps, tif
or into video formats mov, avi, by using 3D StudioMAX's
render editor. In this project lots of scenes were rendered into
bmp format and a short animation in avi format was created as
an example.
Figure 3. 3D textured model of the monastery of Christ
Pantepoptes (Eski Imaret-i Atik Cami) in 3D Studio MAX.
Figure 4. 3D textured model of the monastery of Christ
Pantepoptes (Eski Imaret-i Atik Cami) in AutoCAD.
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B5. Istanbul 2004
Figure 5. 3D model of the monastery of Christ Pantepoptes
(Eski Imaret-i Atik Cami) in ArcView.
In this project 3D textured model was also created in AutoCAD
and in Arc View environment (Fig. 4 and Fig. 5).
4.2 GIS
GIS is an important tool for urban planning. GIS includes
software and hardware tools, and a group of procedures
elaborated to facilitate the capture, edition, administration,
manipulation, analysis, modelling, representation and the exit of
spatial referenced and semantic data, to solve any type of
planning, administration, storage, and further information
concerning the problem. GIS technology greatly facilitates the
inventory, evaluation, preservation, and documentation of
archaeological sites and historical structures. As heritage
conservation becomes more holistic and historic sites are
steadily becoming integrated with the surrounding landscapes,
GIS has been recognized as a critical component in the
development of virtual historic collections and archives.
The package we use here is Arc View which is amongst the
most popular and flexible GIS software. We have two kinds of
databases: the one who has the graphical and geometrical data
and the one 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
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