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-
- import os, sys
- import numpy as np
- from ruamel import yaml
-
- import pyLemma.LemmaCore as lc
- import pyLemma.Merlin as mrln
- import pyLemma.FDEM1D as em1d
-
- import numpy as np
-
- #import matplotlib.pyplot as plt
- #import seaborn as sns
- #sns.set(style="ticks")
- #import cmocean
- #from SEGPlot import *
- #from matplotlib.ticker import FormatStrFormatter
- #import matplotlib.ticker as plticker
-
-
- # Converts Lemma/Merlin/Akvo serialized Eigen arrays into numpy ones for use by Python
- class VectorXr(yaml.YAMLObject):
- """
- Converts Lemma/Merlin/Akvo serialized Eigen arrays into numpy ones for use by Python
- """
- yaml_tag = u'VectorXr'
- def __init__(self, array):
- self.size = np.shape(array)[0]
- self.data = array.tolist()
- def __repr__(self):
- # Converts to numpy array on import
- return "np.array(%r)" % (self.data)
-
- class AkvoData(yaml.YAMLObject):
- """
- Reads an Akvo serialized dataset into a standard python dictionary
- """
- yaml_tag = u'AkvoData'
- def __init__(self, array):
- pass
- #self.size = np.shape(array)[0]
- #self.Imp = array.tolist()
- def __repr__(self):
- # Converts to a dictionary with Eigen vectors represented as Numpy arrays
- return self
-
- def loadAkvoData(fnamein):
- """ Loads data from an Akvo YAML file. The 0.02 is hard coded as the pulse length. This needs to be
- corrected in future kernel calculations. The current was reported but not the pulse length.
- """
- fname = (os.path.splitext(fnamein)[0])
- with open(fnamein, 'r') as stream:
- try:
- AKVO = (yaml.load(stream, Loader=yaml.Loader))
- except yaml.YAMLError as exc:
- print(exc)
- return AKVO
-
-
- def main():
- if len(sys.argv) < 3:
- print ("usage python calcAkvoKernel.py AkvoDataset.yaml Coil1.yaml " )
- exit()
-
- gamma = 2.67518e8
- fL = 2289.
- B0 = (fL*2.*np.pi) /gamma * 1e9
-
- AKVO = loadAkvoData(sys.argv[1])
- Coil1 = em1d.PolygonalWireAntenna.DeSerialize( sys.argv[2] )
- Coil1.SetNumberOfFrequencies(1)
- Coil1.SetFrequency(0, fL)
- Coil1.SetCurrent(1.)
-
-
- lmod = em1d.LayeredEarthEM()
- lmod.SetNumberOfLayers(4)
- lmod.SetLayerThickness([15.49, 28.18])
- lmod.SetLayerConductivity([0.0, 1./16.91, 1./24.06, 1./33.23])
- lmod.SetMagneticFieldIncDecMag( 68.9, 0, B0, lc.NANOTESLA )
-
-
- Kern = mrln.KernelV0()
- Kern.PushCoil( "Coil 1", Coil1 )
- Kern.SetLayeredEarthEM( lmod );
- Kern.SetIntegrationSize( (200,200,200) )
- Kern.SetIntegrationOrigin( (0,0,0) )
- Kern.SetTolerance( 1e-9 )
- Kern.SetMinLevel( 3 )
- Kern.SetHankelTransformType( lc.FHTKEY201 )
- Kern.AlignWithAkvoDataset( sys.argv[1] )
-
- thick = np.geomspace(.5, 10,num=40)
- iface = np.cumsum(thick)
- Kern.SetDepthLayerInterfaces(iface)
- #Kern.SetDepthLayerInterfaces(np.geomspace(1, 110, num=40))
- #Kern.SetDepthLayerInterfaces(np.linspace(1, 110, num=50))
- #Kern.SetDepthLayerInterfaces(np.geomspace(1, 110, num=40))
-
- # autAkvoDataNode = YAML::LoadFile(argv[4]);
- # Kern->AlignWithAkvoDataset( AkvoDataNode );
-
- #Kern.SetPulseDuration(0.040)
- #Kern.SetPulseCurrent( [1.6108818092452406, 1.7549935078885168, 1.7666319459646016, 1.9270787752430283,
- # 1.9455431806179229, 2.111931346726564, 2.1466747256211747, 2.3218217392379588,
- # 2.358359967649008, 2.5495654202189058, 2.5957289164577992, 2.8168532605800802,
- # 2.85505242699187, 3.1599429539069774, 3.2263673040205068, 3.6334182368296544,
- # 3.827985200119751, 4.265671313014058, 4.582237014873297, 5.116839616183394,
- # 5.515173073160611, 6.143620383280934, 6.647972282096122, 7.392577402979211,
- # 8.020737177449933, 8.904435233295793, 9.701975105606063, 10.74508217792577,
- # 11.743887525923592, 12.995985956061467, 14.23723766879807, 15.733870137824457,
- # 17.290155933625808, 19.07016662950366, 21.013341340455703, 23.134181634845618,
- # 25.570925414182238, 28.100862178905476, 31.13848909847073, 34.16791099558486,
- # 37.95775984680512, 41.589619321873165, 46.327607251605286, 50.667786337299205,
- # 56.60102493062895, 61.81174065797068, 69.23049946198458, 75.47409803238031,
- # 84.71658869065816, 92.1855007134236, 103.77129947551164, 112.84577430578537,
- # 127.55127257092909, 138.70199812969176, 157.7443764728878, 171.39653462998626]
- #)
-
- Kern.CalculateK0( ["Coil 1"], ["Coil 1"], False )
-
- yml = open('akvoK3-' + str(Kern.GetTolerance()) + '.yaml', 'w')
- print(Kern, file=yml)
-
- K0 = Kern.GetKernel()
-
- #plt.matshow(np.abs(K0))
- #plt.show()
-
- if __name__ == "__main__":
- main()
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