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Geostatistics

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Geostatistics GLY 560: GIS for Earth Scientists Introduction Premise: One cannot obtain error-free estimates of unknowns (or find a deterministic model) Approach: Use ... – PowerPoint PPT presentation

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Title: Geostatistics


1
Geostatistics
  • GLY 560 GIS for Earth Scientists

2
Introduction
  • Premise
  • One cannot obtain error-free estimates of
    unknowns (or find a deterministic model)
  • Approach
  • Use statistical methods to reduce and estimate
    the error of estimating unknowns (must use a
    probabilistic model)

3
Estimator of Error
  • We need to develop a good estimate of an unknown.
    Say we have three estimates of an unknown

4
Estimator of Error
  • An estimator that minimizes the mean square error
    (variance) is called a best estimator
  • When the expected error is zero, then the
    estimator is called unbiased.

5
Estimator of Error
  • Note that the variance can be written more
    generally as
  • Such an estimator is called linear

6
BLUE
  • An estimator that is
  • Best minimizes variance
  • Linear can be expressed as the sum of factors
  • Unbiased expects a zero error
  • is called a BLUE(Best Linear Unbiased Estimator)

7
BLUE
  • We assume that the sample dataset is a sample
    from a random (but constrained) distribution
  • The error is also a random variable
  • Measurements, estimates, and error can all be
    described by probability distributions

8
Realizations
9
Experimental Variogram
  • Measures the variability of data with respect to
    spatial distribution
  • Specifically, looks at variance between pairs of
    data points over a range of separation scales

10
Experimental Variogram
After Kitanidis (Intro. To Geostatistics)
11
Experimental Variogram
After Kitanidis (Intro. To Geostatistics)
12
Small-Scale Variation Discontinuous Case
Correlation smaller than sampling scale Z2 cos
(2 p x / 0.001)
After Kitanidis (Intro. To Geostatistics)
13
Small-Scale VariationParabolic Case
Correlation larger than sampling scale Z2 cos
(2 p x / 2)
After Kitanidis (Intro. To Geostatistics)
14
Stationarity
  • Stationarity implies that an entire dataset is
    described by the same probabilistic process that
    is we can analyze the dataset with one
    statistical model
  • (Note this definition differs from that given by
    Kitanidis)

15
Stationarity and the Variogram
  • Under the condition of stationarity, the
    variogram will tell us over what scale the data
    are correlated.

Correlated at any distance
Uncorrelated
g(h)
Correlated at a max distance
h
16
Variogram for Stationary Dataset
  • Range maximum distance at which data are
    correlated
  • Nugget distance over which data are absolutely
    correlated or unsampled
  • Sill maximum variance (g(h)) of data pairs

17
Variogram Models
18
Kriging
  • Kriging is essentially the process of using the
    variogram as a Best Linear Unbiased Estimator
    (BLUE)
  • Conceptually, one is fitting a variogram model to
    the experimental variogram.
  • Kriging equations may be used as interpolation
    functions.

19
Examples of Kriging
20
Final Thoughts
  • Kriging produces nice (can be exact)
    interpolation
  • Intelligent Kriging requires understanding of the
    spatial statistics of the dataset
  • Should display experimental variogram with
    Kriging or similar methods
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