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LANDSLIDE SUCCEPTABILITY MAPPING (Case study of SRILANKA). Statistical Map. Bivariate statistical method 1. Landslide rupture 2. Relevant factors (parameters) for the prediction of landslide : Lithology - Slope Landuse - Aspect Soiltype - Curvature. - PowerPoint PPT Presentation
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LANDSLIDE SUCCEPTABILITY MAPPING(Case study of SRILANKA)
Bivariate statistical method
1. Landslide rupture
2. Relevant factors (parameters) for the prediction of landslide :
- Lithology - Slope- Landuse - Aspect- Soiltype - Curvature
Statistical Map
Statistical Analysis Map3. Weight value for each factor : Landslide Index
- Dens. clas : Landslide density within parameter class
- Density map : Landslide density within entire map
- N pixel (Si) : Number of pixels, which contain landslides per parameter class
- N pixel (Ni): Total number of pixels in a parameter class
Statistical Analysis MapSix weight value maps will be calculated:
1. lithology weight map
2. Soil type weight map
3. Landuse weight map
4. Slope weight map
5. Aspect weight map
6. Curvature weight map
Hazard succeptibility map
Data Available• Soil map
• Contour lines(10m intervals)
• Land use map
• Landslide rupture map
• Reference coordinate system for Srilanka: Central Meridian, False Northing Latitude of origin, Scale factor, false northings and false eastings are 200,000meters,
• Used Software : ArcGIS 9.3
Work Flow
1. Created a file geodatabase (ArcGIS 9.3)2. Imported our features( all shapefiles)3. Rasterisation of our feature Landslide rupture (define the extent of
our raster by using mask)4. Generated DEM using contours: define cell size and mask5. Reclassification : Aspect, slope and curvature6. Rasterization : lithology, landuse and soil type features ( polygon
to raster)7. Zonal tables ( zonal statistics as table)8. Join tables to corresponding classes9. Calculate six weight value maps10. Hazard susceptibility map (sum up all weight value maps)
(Weighted Sum Operation)
1.Rasterization:LandSide Rupture Feature
• Cell size : 20m • Assign the extent of our raster • by using given mask feature
• Total number of pixel (2752)
2.Generation Aspect Slope and Curvature
1. DEM from Contour lines(Spatial Analyst Tools TIN management)
Continue….Spatial analyst tools (Aspect, slope and curvature)
Aspect Slope Curvature
All these rasters do not have values ( no Attribute tables, floating rasters)
3.Rasterization:Lithology Landuse and Soil Polygon Raster
Soiltype : 4 classes Lithology : 3 classes Landuse : 21 classes
4.Reclassification Spatial analyst tools Reclass Reclassify
Aspect 5 classes are made
Continue…..
Slope 5 classes
Curvature 5 classes
Continue…….
Slope CurvatureAspect
Reclassification of LanduseRaster
Landuse 4 classes
5.Zonal Tables
Spatial analyst tools Zonal Zonal statistics as table
• We want to calculate the number of pixels of landslide that fall in each class of our raster slope,
• Repeated the same process is done for 5 remaining Rasters
6.Join Tables to Correspond Rasters
• Join tables of each raster to its corresponding zonal statistic table,• Total number of pixels of that raster in each zonal statistic table,• Use “Field calculator”, added a new field of weight in our table
7.Field Calculator
Calculate the weight valuesby introducing the given formula in field calculator
8.Calculate Six Weight Value Maps
e.g. Aspect-ve values mean Low Risk Area+ve values mean High Risk Area
9.Weight Maps
Aspect weight map Slope weight map
Continue…..
Curvature weight map Soiltype weight map
Continue….
Lithology weight map Landuse weight map
10.Final Landslide Susceptibility Map
Thank you for your attention.
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QUESTIONS???
