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simulation_example.py
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simulation_example.py
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#!/usr/bin/env python
import geostatsmodels.utilities as u
import geostatsmodels.kriging as k
import geostatsmodels.simulation as s
from pylab import *
import numpy as np
# read cluster.dat
d = u.readGeoEAS("cluster.dat")
# take the first three columns
d = d[:,:3]
# define the lags and tolerance
# for the semivariogram modeling
lags, tol = np.linspace( 10, 50, 10 ), 5
# if the data is not normally distributed,
# perfrom a z-score transformation
d, inv = u.to_norm( d )
# perform sequential Gaussian simulation using
# a spherical model, on a 5x5 grid
m = s.sgs( d, k.spherical, lags, tol, 5, 5 )
# use the [:,::-1].T to a) reverse the order of the columns
# and then b) transpose the data, this takes it from Python
# conventions, back to the way we normally think of spatial data
print(m[:,::-1].T)
'''
Printing m, you should see something like the following output.
Notice that these values look like they have a mean of zero, and a
standard deviation of one. This data has not been transformed back
to the original distribution.
array([[ 0.03499825, -0.56577758, -0.53807829, 0.45723896, 0.33959872],
[-0.42029471, -0.27813954, 0.07044366, 0.39437271, -0.07625142],
[-1.12918974, -0.36841119, 0.21116697, -1.11767303, -0.48140453],
[ 0.39862306, -0.39414717, -0.95340368, -0.46121427, -0.08815428],
[ 0.50258498, -0.91996145, -0.91149543, -0.61183492, -0.88997225]])
'''
# assuming you have matplotlib and pylab installed,
# you can visulize the untransformed data
matshow( m[:,::-1].T, cmap=u.YPcmap )
# perform the back-transformation
n = u.from_norm( m, inv )
print(n[:,::-1].T)
'''
The back-transformed data should look something like this:
array([[ 2.32771604, 0.89024448, 0.9233661 , 3.63025147, 3.28306658],
[ 1.01198912, 1.35326734, 2.33965581, 3.53342939, 1.94217347],
[ 0.26234492, 1.10879666, 2.80242068, 0.26918933, 0.96348094],
[ 3.54440162, 1.06344535, 0.33826991, 0.99125142, 1.89579485],
[ 4.25739527, 0.36063006, 0.36684815, 0.82690577, 0.3828731 ]])
'''