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Geostatistics Mike Goodchild. Spatial interpolation n A field –variable is interval/ratio –z = f(x,y) –sampled at a set of points n How to estimate/guess.

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Presentation on theme: "Geostatistics Mike Goodchild. Spatial interpolation n A field –variable is interval/ratio –z = f(x,y) –sampled at a set of points n How to estimate/guess."— Presentation transcript:

1 Geostatistics Mike Goodchild

2 Spatial interpolation n A field –variable is interval/ratio –z = f(x,y) –sampled at a set of points n How to estimate/guess the value of the field at other points?

3 Characteristics of interpolated surfaces n Representation –raster, isolines, TIN n Form –rugged or smooth –exact or approximate –continuity 0-order 1-order 2-order n Uncertainty –variance estimators?

4 Linear interpolation n Along a line –geocoding with address ranges x 2,y 2 address 2 x 1,y 1 address 1 x,y address

5 In a triangle 20 30 40

6 In a rectangle n Bilinear interpolation 20 30 40 (24) (34) (29)

7 Characteristics of linear interpolation n Exact n 0-order continuity n Contours are straight –but not parallel in bilinear case

8 IDW n Advantages –quick, universal, theory-free n Disadvantages –theory-free –directional effects non-spatial –characteristics of a weighted average when all weights are non-negative

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11 Characteristics of IDW surfaces n Pass through each data point (exact) –if negative power distance function –1/0 b =  n 0-, 1-, 2-order continuous –except at data points n Underestimate peaks –volcanoes –unless peak is observation point n Extrapolate to the global mean n Noisy extrapolations

12 Kriging n Geostatistics as theoretical framework n Estimation of parameters from data n Use of estimated model to control interpolation n Many versions –not a simple black box –highlights –demonstration

13 The variogram n Relationship between variance and distance n Formalization of Tobler's First Law n Estimated from data –how well can a given data set estimate variogram? –distribution of sample points is critical at peaks and pits samples the range of possible distances uniform spacing not desirable but often out of the user's control

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15 Estimation n Data points z i (x i ) n Interpolate at x –stochastic process –multiple realizations variance obtained from variogram n A set of weights i unique to x –chosen such that the estimate is unbiased minimum variance

16 Kriging prediction

17 Results of Kriging n A mean surface n A variance surface –minimum at observation points n Mean surface is smoother than any realization –is not a possible realization a mean map is not a possible map –compare a univariate process –average rainfall versus rainfall from a single storm –conditional simulation

18 Kriging standard error

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21 Kriging variants n Co-Kriging –interpolation process guided by another variable (field) –hard and soft data –observations of interpolated data are hard –guiding variable is soft

22 55 70 83 68 z = f (elevation)

23 Co-Kriging n Linear relationship f n Point observations are hard –accurate, sparse n Elevation observations are soft –inaccurate (errors in measurement or prediction) –dense

24 Co-Kriging prediction

25 Co-Kriging standard error

26 Indicator Kriging n Binary field –c {0,1} n Obtained by thresholding an interval/ratio field –c=1 if z>t else c=0 –estimate variogram from observations of c –z is hidden n The multivariate case –sequential assignment

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28 Indicator Kriging n Assign Class 1, notClass 1 n Among notClass 1, assign Class 2, notClass 2 n Continue to Class n-1 –notClass n-1 = Class n

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30 Universal Kriging n Simple Kriging is all second order –trend results from random walk n Stochastic process plus trend –trend is first order –remove trend before analysis –restore trend after analysis

31 Advantages and disadvantages n Theoretically based n Not a black box n Statistical –variance estimates n Sensitivity to sample design


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