De-
a are
opo-
d SP
Point
dam.
m SP
igital
ed by
- GIS
ct the
-Sec-
igital
> Fig-
1 Was
OM).
:alcu-
Le
OSS-
Figure 6 shows the final results for simulated
soil saving dam. In this case four soil saving dams
are needed to prevent debris flow and landslide
in the watershed. Left side in the Figure 6 shows
the watershed, flow of river and place of soil sav-
ing dams.The right in the Figure 6 shows the
cross-section of four soil saving dams which were
simulated by developed system.
Characteristics of developed system is using
50m mesh digital elevation data instead of detail
conture map. Huge amount of money and work
need to design soil saving dam in the past. Be-
cause it is difficult to consider environment
around planning areas. Developed system will
assist the planning of soil saving dam.
We have already been conducted the analysis
in the valley areas with remote sensing data and
thematic map data respectively. We especially fo-
cused the landslide in the mountainous areas on
recent years. If we can combine satellite image
data to developed system, simulated accuracy will
improve.
6. CONCLUSIONS
We have been conducted the estimation of land-
slide in the pilot area located north district of
Noto Peninsula in the central district of Japan.
The first objective of this study is to find areas
where landslide may occur in the near future at
valley areas by using satellite remote sensing data
and thematic map data related to landslide areas
with GIS (Geographic Information system) tech-
niques.
In this paper our purpose focused to evaluate
the place where the soil saving dam will con-
tract in valley. We reached first objection to esti-
mate the number and the place of soil saving dam.
We need more investigation and simulation. We
will investigate the relationship between simula-
tion results and actual soil saving dam at differ-
ent place for evaluation of environment.
ACKNOWLEDGMENTS
The authors wish to thank a student of gradu-
ate , Mr.Yoshihiko Suzuki (He works at ASIA
AIR SURVEY Co,.LTD now) contributed sig-
nificantly to the computation and investigation
for this analysis. We also wish to acknowledge
the INFOMATIX INC. and Pasco CORPORA-
TION for their assistance in analyzing the data.
References
[1] Y.Noguchi, 1969 SABO Engineering,
Asakura Book Company Co,.LTD.
[2] Japan Society of Civil Engineering, 1980
SABO,Landslide and Dangerous areas for
steep Slope, GHIHOUDO Book Company
Co, LTD.
[3] ESRI, 1991.
ARC/INFO Command References
[4] M.Shikada, T. Kusaka and K Miyakita, 1992.
Extraction of Landslide areas Using MSS
Data and Thematic Map DatabaseSystem,
International Archives of Photogrammetry
and Remote Sensing, Vol.16. Part B4
Com.4,pp.386- 391.
[5] T.Kusaka, M.Shikada and Y.Kawata, 1992.
Extraction of Landslide Areas Using Spatial
Features of Topographic Basins,Proc.of
IGARSS' 92.
[6] A. Takei, 1993 SABO Engineering,
BUNEIDO Co,.LTD.
[7] T.Kusaka and M.Shikada, 1993.
Inference of Land-slide Areas Using Spatial
Features and Surface Temperature of Water-
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International Archives of Photogrammetry and Remote Sensing. Vol. XXXII, Part 7, Budapest, 1998 613
