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Spatial Statistics III Stat 518 Sp08. Bayesian kriging Instead of estimating the parameters, we put a prior distribution on them, and update the distribution.

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Presentation on theme: "Spatial Statistics III Stat 518 Sp08. Bayesian kriging Instead of estimating the parameters, we put a prior distribution on them, and update the distribution."— Presentation transcript:

1 Spatial Statistics III Stat 518 Sp08

2 Bayesian kriging Instead of estimating the parameters, we put a prior distribution on them, and update the distribution using the data. Model: Prior: Posterior:

3 geoR Prior is assigned to  and. The latter assumed zero unless specified. The distributions are discretized. Default prior on mean  is flat (if not specified, assumed constant). (Lots of different assignments are possible)

4 Prior/posterior of 

5 Variogram estimates mean median WLS

6 Bayes vs universal kriging Bayes predictive meanUniversal kriging

7 Spectral representation By the spectral representation any isotropic continuous correlation on R d is of the form By isotropy, the expectation depends only on the distribution G of. Let Y be uniform on the unit sphere. Then

8 Isotropic correlation J v (u) is a Bessel function of the first kind and order v. Hence and in the case d=2 (Hankel transform)

9 The Bessel function J 0 –0.403

10 The exponential correlation A commonly used correlation function is  (v) = e –v/ . Corresponds to a Gaussian process with continuous but not differentiable sample paths. More generally,  (v) = c(v=0) + (1-c)e –v/  has a nugget c, corresponding to measurement error and spatial correlation at small distances. All isotropic correlations are a mixture of a nugget and a continuous isotropic correlation.

11 The squared exponential Usingyields corresponding to an underlying Gaussian field with analytic paths. This is sometimes called the Gaussian covariance, for no really good reason. A generalization is the power(ed) exponential correlation function,

12 The spherical Corresponding variogram nugget sillrange

13

14 The Matérn class where is a modified Bessel function of the third kind and order . It corresponds to a spatial field with  –1 continuous derivatives  =1/2 is exponential;  =1 is Whittle’s spatial correlation; yields squared exponential.

15

16 Some other covariance/variogram families NameCovarianceVariogram Wave Rational quadratic LinearNone Power lawNone

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