developing ground water level map for dinajpur district, bangladesh using geo-statistical analyst
DESCRIPTION
Dr. A.K.M. Saiful Islam. Developing ground water level map for Dinajpur district, Bangladesh using geo-statistical analyst. Institute of Water and Flood Management (IWFM) Bangladesh University of Engineering and Technology (BUET). Geo-statistical Analyst of ArcGIS. This training will be on: - PowerPoint PPT PresentationTRANSCRIPT
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Developing ground water level map Developing ground water level map for Dinajpur district, Bangladeshfor Dinajpur district, Bangladesh
using geo-statistical analystusing geo-statistical analyst
Dr. A.K.M. Saiful IslamInstitute of Water and Flood Management (IWFM)Bangladesh University of Engineering and Technology (BUET)
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Geo-statistical Analyst of ArcGISGeo-statistical Analyst of ArcGIS
This training will be on:
1.1. Represent data Represent data 2.2. Explore dataExplore data3.3. Fit a interpolation Model Fit a interpolation Model 4.4. Diagnosis outputDiagnosis output5.5. Create ground water level mapsCreate ground water level maps
Input Data
Groundwater well data of Dinajpur district of Bangladesh
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Study Area and Data
• Study area – Seven upazillas of Dinajpur
District of Bangladesh
• Data– Data from 27 Groundwater
observation Wells as shape file “gwowell_bwdb.shp”. Weekly data from December to May for 1994 to 2003
– Upazilla shape file “upazila.shp”
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Activate Geo-statistical Analyst
• Turn on Geostatistaical Anaylst of ArcGIS
Enable toolbarEnable Extension
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Add Data
• Add both shape files
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1. Represent Data
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Groundwater well data
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2. Explore Data
a) Histogram
b) Normal Q-Q Plot
c) Trend Analysis
d) Voronoi Map
e) Semivariogram
f) Covariance cloud
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a) Histogram• Select attribute: any data e.g. DEC05_1994 • We can change no of bars or bin size• Distribution is normal
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Transformation
• Log- transformation doesn’t change distribution pattern
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b) Normal Q-Q Plot
• Normal Q-Q plot is straight line which represents normal distribution
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c) Trend Analysis
• Shows trend in both X and Y direction since the projection lines (blue and green) are not straight.
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d) Voronoi map • Shows the zone of influence of known data points
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e) Semi-variogram
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Shows search directional• Exhibits directional influence in different angle (arrows)
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f) Co-variance
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3. Fit interpolation model
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Inverse Distance Weighting (IDW)
• Inverse Distance Weighting (IDW) is a quick deterministic interpolator that is exact. There are very few decisions to make regarding model parameters. It can be a good way to take a first look at an interpolated surface. However, there is no assessment of prediction errors, and IDW can produce "bulls eyes" around data locations. There are no assumptions required of the data.
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Global Polynomial (GP)
• Global Polynomial (GP) is a quick deterministic interpolator that is smooth (inexact). There are very few decisions to make regarding model parameters. It is best used for surfaces that change slowly and gradually. However, there is no assessment of prediction errors and it may be too smooth. Locations at the edge of the data can have a large effect on the surface. There are no assumptions required of the data.
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Local Polynomial (LP)
• Local Polynomial (LP) is a moderately quick deterministic interpolator that is smooth (inexact). It is more flexible than the global polynomial method, but there are more parameter decisions. There is no assessment of prediction errors. The method provides prediction surfaces that are comparable to kriging with measurement errors. Local polynomial methods do not allow you to investigate the autocorrelation of the data, making it less flexible and more automatic than kriging. There are no assumptions required of the data.
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Radial Basis Functions (RBF)
• Radial Basis Functions (RBF) are moderately quick deterministic interpolators that are exact. They are much more flexible than IDW, but there are more parameter decisions. There is no assessment of prediction errors. The method provides prediction surfaces that are comparable to the exact form of kriging. Radial Basis Functions do not allow you to investigate the autocorrelation of the data, making it less flexible and more automatic than kriging. Radial Basis Functions make no assumptions about the data.
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Kriging
• Kriging is a moderately quick interpolator that can be exact or smoothed depending on the measurement error model. It is very flexible and allows you to investigate graphs of spatial autocorrelation. Kriging uses statistical models that allow a variety of map outputs including predictions, prediction standard errors, probability, etc. The flexibility of kriging can require a lot of decision-making. Kriging assumes the data come from a stationary stochastic process, and some methods assume normally-distributed data.
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Cokriging
• Cokriging is a moderately quick interpolator that can be exact or smoothed depending on the measurement error model. Cokriging uses multiple datasets and is very flexible, allowing you to investigate graphs of cross-correlation and autocorrelation. Cokriging uses statistical models that allow a variety of map outputs including predictions, prediction standard errors, probability, etc. The flexibility of cokriging requires the most decision-making. Cokriging assumes the data come from a stationary stochastic process, and some methods assume normally-distributed data.
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Kriging Geo-statistical method
• Select ordinary kriging
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Semivariogram modeling
• Select spherical method
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Searching neighbour
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Cross validation
• Root mean square error is 1.437
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Report of output layer
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Prediction map
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Extent of Map
• Set Extend as upazilla
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Export as Raster
• Select cell size as 100
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Prediction map as raster
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Zonal statistics
• Zonal statistics from Spatial Analyst
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Mean ground water level
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Change color for Mean ground water level of Dinajpur