Spatial%20Interpolation%20(Kriging) - PowerPoint PPT Presentation

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Spatial%20Interpolation%20(Kriging)

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Title: GEOG 578 GIS Application Author: um Last modified by: feihua Created Date: 1/17/2005 10:43:30 PM Document presentation format: On-screen Show – PowerPoint PPT presentation

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Title: Spatial%20Interpolation%20(Kriging)


1
Spatial Interpolation (Kriging)
2
Objectives
  • Understand the general procedures for spatial
    interpolation
  • Explore the use of Kriging for spatial
    interpolation

3
General Procedures
  • Examine the spatial continuity in sample data
    used to construct a semivariogram
  • Choose a proper model to describe the observed
    spatial continuity
  • Perform interpolation of values at un-visited
    locations
  • Examine the quality of the interpolation

4
Review of Kriging
  • Semi-variogram
  • ?(h) 1/2 var z(sh) z(s)
  • 1/2 Ez(sh) z(s)2 if
    Ez(sh) Ez(s) (ie, no trend)

5
Review of Kriging (cont.)
  • Ordinary Kriging
  • Assume
  • z(s) is intrinsically stationary, ie z(s) m
    e(s)
  • known semi-variogram?
  • know values at z(s1) z(sn)
  • Want to predicted z(s0) using a linear predictor
  • With the objectives

6
Review of Kriging (cont.)
  • Ordinary Kriging
  • With the objectives
  • Differentiating and set the partial derivatives
    to zero can get wi and

7
Step 1 get data
  • Get data
  • Start arc
  • Createworkspace workspace (workspace must not
    already exist)
  • createworkspace d\geog579\lab05
  • Copy sample.e00 and test.e00 to your workspace
    using Windows copy and paste command
  • Use the following command to import e00 files
  • Import cover sample sample
  • Import cover test test
  • Show available coverage in the workspace
  • lc
  • Use dir info to list Arc/Info files
  • dir info
  • Use list to see the information in the files
  • list sample.pat

8
Step 2 Examine data
  • Examine the data via
  • ArcMap
  • From ArcMap ? add data ? sample
  • Or Arcplot
  • From arc, use the following commands
  • to plot the data
  • Display 9999
  • Arcplot (Launch Arcplot)
  • Clear
  • Mape sample
  • Points sample noids

9
Step 3 Examine spatial continuity in the sample
data
  • In ARC using the following statement to examine
    the spatial continuity of the sample data
  • Kriging sample s50_1 vars50_1 value graph
    spherical sample 12 50

10
Step 3 Examine spatial continuity in the sample
data (cont.)
  • Use list s50_1.svg to examine the model fitted
    semivariance
  • Examine the data using other semi-variogram
    models (exponential, gaussian, circular, and
    linear models)
  • Kriging sample s50_1 vars50_1 value graph
    exponential sample 12 50
  • Kriging sample s50_1 vars50_1 value graph
    gaussian sample 12 50
  • Kriging sample s50_1 vars50_1 value graph
    circular sample 12 50
  • Kriging sample s50_1 vars50_1 value graph
    linear sample 12 50

11
Step 3 Examine spatial continuity in the sample
data (cont.)
  • Launch arcplot to display the semi-variogram
  • Clear
  • Semivariogram s50_1.svg
  • Use arcplot and the commands outlined in the
    handout to print/save the image

12
Step 4 Choose a proper model
  • Choose a semi-variogram model based on the shape
    of the sample semi-variogram

13
Step 5 Perform interpolation
  • Perform interpolation
  • For example
  • Kriging sample s50_1s vars50_1s value lattice
    spherical sample 12 50
  • Name conventions
  • Differentiate of sample points, maximum
    radius, resolution, semivariogram model

14
Step 5 Perform interpolation (cont.)
  • Display the interpolation via
  • ArcMap
  • Or Grid
  • Display 9999
  • Mape s50_1s
  • Gridpaint s50_1s linear gray

15
Step 6 Quality evaluation
  • Use ArcMap or Arc/Info grid subsystem to
    print/save the interpolation variance map

16
Step 6 Quality evaluation (cont.)
  • Compare RMSE
  • Copy rmse.eaf, edriveaml.bat, rmse.aml and
    aml.bat to your local storage
  • In Arcplot use a locally develop program to
    report RMSE and ME
  • run rmse test value s50_1s

17
Step 7 Repeat
  • Repeat
  • Change search radius from 50 ? 20 (other
    parameter unchanged)
  • Change spatial resolution from 1 ? 3
  • Change search sample points from 12 ? 30
  • Do comparison
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