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Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

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Page 1: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Spatial Analysis & Geostatistics

Methods of Interpolation

Linear interpolation using an equation to compute z at any pointon a triangle

Page 2: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Linear Interpolation

Page 3: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Clough-Tocher Interpolation – Using cubic polynomial defined by 12parameters

Page 4: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Inverse Distance Weighted Interpolation – nodal function constants

Page 5: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Inverse Distance Weighted Interpolation –gradient method

Page 6: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Inverse Distance Weighted Interpolation –cubic method

Page 7: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Inverse Distance Weighted Interpolation –cubic method - truncated

Page 8: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Natural Neighbor Interpolation

Page 9: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Kriging

Page 10: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Differences between kriging and nn

Page 11: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Kriging is based on the assumption that the parameter being interpolated can be treated as a regionalized variable. A regionalized variable is intermediate between a truly random variable and a completely deterministic variable in that it varies in a continuous manner from one location to the next and therefore points that are near each other have a certain degree of spatial correlation, but points that are widely separated are statistically independent (Davis, 1986). Kriging is a set of linear regression routines which minimize estimation variance from a predefined covariance model.Once the experimental variogram is computed, the next step is to define a model variogram. A model variogram is a simple mathematical function that models the trend in the experimental variogram

More formal definition of kriging

Page 12: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

The first step in ordinary kriging is to construct a variogram from the scatter point set to be interpolated. A variogram consists of two parts: an experimental variogram and a model variogram. Suppose

that the value to be interpolated is referred to as f. The experimental variogram is found by calculating the variance (g) of each point in the set with respect to each of the other points and plotting the variances versus distance (h) between the points. Several formulas

can be used to compute the variance, but it is typically computed as one half the difference in f squared.

Page 13: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

0 1000 2000 3000 4000Distance (m eters)

0.00

0.40

0.80

1.20

1.60

gam

ma

(h)

Pairwise Relative Fe

Page 14: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Construction of a ccdf Using the Pu Isotopic Ratios.

Normal Score Transform of the Pu Isotopic Ratio into Y value. 

Variogram Modeling of the Normal Score Values Y Using Trial & Error Approach to Fit a Model. 

Bivariate Normality TestIf Normal Proceed with sGs. If Normal Assumption Violated Select Other Simulation Routines 

Define Random Path that visits Each Grid Node Once. Specified Number of Neighboring Conditioning Data Including Original Data and Previously Simulated Values. 

Use SK with the Above Variogram Model to Determine the Parameters of the ccdf of the Y Variable at Location (u). Draw a Simulated Value y(l)(u) from that ccdf and Add this Value to the Data Set. 

Proceed to the Next Node and Loop Until all Nodes Are Simulated. 

Backtransformed the Simulated Normal Values {y(l)(u), u A} into Simulated Values of the Original Variable z. Where l represents realization, u location, and A the study area.

One Hundred Realizations Were Conducted. Setting A Different Random Path For Each Realization.

Stochastic Simulation Techniques

Page 15: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

20 600 0 20 800 0 21 000 0

E -ty pe D P S (% )

27 400 0

27 600 0

27 800 0

28 000 0

28 200 0

2 5

3 5

4 5

5 5

L ak eA gm o n

Page 16: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

20 600 0 20 800 0 21 000 0

27 400 0

27 600 0

27 800 0

28 000 0

28 200 0

0. 5

0. 6

0. 7

0. 8

0. 9

1. 0

L ak eA gm o n

Probability of Exceedance

Page 17: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

The level of variation present in all scales can be described by a single parameter, the fractal dimension D, defined by Mandelbrat, (1982):

where N is the number of steps used to measure a pattern unit length and r is the scale ratio.

In practice, we estimated the D values from the following relationships:

9log

log

r

ND

10)(2 24 Dhh

where h is the sampling interval and (h) is the spatial structure. By plotting log(h) versus log(h), the slope of the line is equal to 4 – 2D

Page 18: Spatial Analysis & Geostatistics Methods of Interpolation Linear interpolation using an equation to compute z at any point on a triangle

Elevation 50 1.2

Mean Snow Depth

50 1.4

Organic C 35 1.7

pH 35 1.7

Bulk density 50 1.8

Soil Moisture Content

50 1.7

L* 35 1.6

a* 35 1.7

b* 35 1.7

L* 10 1.8

Attribute Lag (m)

D