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International Archives of the Photogrammetry, Remote Sensing
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6. ACTUAL CONDITION OF BUILDING DAMAGE
6.1 Classification of Building Damage
The evaluation type of the three damage data sets is
based on the evaluating criteria based on the central
government. The criteria can be explained as follows.
1) Small damage: There is no damage to the supporting
system (foundation and pillar). For example, the surface of
the partition wall has cracks.
2) Medium damage: Supporting system is damaged. Beam
is damaged and pillar has small cracks. Wall is partly
damaged. Supporting power becomes weak but concrete is
not crushed and steel rod is not cut down.
3) Heavy damage and collapse: Supporting system is
severely damaged. Pillar and concrete wall are heavily
cracked and collapsed. Buildings are partly and completely
collapsed and lean. In the second evaluation by the central
government in Düzce city, the evaluation criteria "collapse"
is used.
6.2 Statistical Trend in Buildings Damage by First and
Second Earthquakes
Fig.9 is a map of Düzce city's total damage. The heavily
damaged area is the central part of the city and there are
relatively high RC buildings. The damage types classified
by number of stories. The ratio of medium and heavily
damaged buildings over 3 stories becomes abruptly
significant. It is known that there are many high RC
buildings in the central part of the city and the damage
degree in this area thus becomes high.
Building damage status on a more detailed spatial scale.
This is the damage situation for each building in
Uzunmustafar, which is one of the highly damaged areas in
US 0%)
Damage Ratio
d
[^ Small(<30%)
| Heavy/Collapse wv
and Spatial Information Sciences, Vol XXX V, Part B4. Istanbul 2004
Düzce city. A star indicates the damage type, classified by
the star types. It is painted over for the heavily damaged or
collapsed buildings and hatched for the medium damaged
buildings. Quite a few buildings are classified as heavily
damages or medium damaged. In DiMSIS, the attributes
are stored as these types of marks, and in general, the map
objects with attributes are called connectors. Basically, we
collect, sort, analyze and merge the connectors when we
need to summarize and analyze the data in an arbitrary
spatial scale. Base on the built GIS database, we can
conduct a damage analysis for the first and second
earthquakes.
7. INTEGRATING MAP DATABASES
QUICKBIRD IMAGE DATA
USING
Quickbird image data (QB data) showed in fig.10 was
captured January 2003. Individual map database set of city
area, new area developed by government and World Bank
area by vector data are gathered. These three database set
are measured independently with absolute coordinate.
Matching has done by following procedure.
I) Give factor to QB data to match to map database of city
area.
2) Add database of new area and check offset of image and
vector data comparing certain object such as buildings or
edge of roads.
3) Move vector data by the offset to match to the QB data.
This procedure can be justified because by the first step
all the vector data and QB data has a good match all over
the city. QB data of all area captured and corrected as
uniform data can be treated as same accuracy.
| Wicavy/Colbpse EM ddle OSmalVNe Dam age
4006
3500 Er =
3000 fre
2500 EE
2000
1500.
Num ber of Bulls
1000. F—
sou foe
Num bep ef Steri:
Number of Buildings Classified by
Damage Degrees and Number of Stories
N © y pe
Fig. 9 Building Damage Status after the Second Earthquake
