| 2004 International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004
San, B.T., 2002. Detecting Earthquake Induced Changes from
Space and Aerial Images. Unpublished Master Thesis, Graduate
ig the School of Natural and Applied Sciences, Geodetic and
of the Geographic Information Technologies, Middle East Technical
roach University, Ankara, TURKEY.
À total
s. The Shafarenko, L., Petrou, M. and Kittler, J., 1997. Automatic
gs, 50 Watershed Segmentation of Randomly Textured Color Images.
icy of IEEE Trans. Image Processing, 6(11), pp. 1530-1544.
ind, of
rrectly Sonka, M., Hlavac, V. and Boyle, R., 1998. Image Processing,
user's Analysis, and Machine Vision, 2" Edition, Brooks Cole, USA,
ted as pp. 186-188.
Turker, M. and San, B.T., 2003. SPOT HRV data analysis for
d for detecting earthquake-induced changes in Izmit, Turkey.
ed is International Journal of Remote Sensing, 24(12), pp. 2439-
d was 2450.
| study
oposed Turker, M. and Cetinkaya, B., in press. Automatic detection of
future. earthquake damaged buildings using DEMs created from pre-
n. The and post-earthquake stereo aerial photographs. International
ded or Journal of Remote Sensing.
pixels
, Turker, M. and San, B.T., in press. Detection of collapsed
buildings caused by the 1999 Izmit, Turkey earthquake through
digital analysis of post-event aerial photographs. /nternational
Journal of Remote Sensing.
proach Vincent, L. and Soille, P., 1991. Watersheds in digital spaces:
6 Sin: an efficient algorithm based on immersion simulations. ZEEE
gherty, Transactions on Pattern Analysis and Machine Intelligence,
13(6), pp. 583-598.
tanding
ssment.
51999.
s Using
ference
1 Aerial
cessing,
ploiting
lows in
in, and
2:2002.
Aerial
'eedings
7-32.
tomated
hquakes
once on
647