Source code for openquake.hmtk.seismicity.smoothing.kernels.isotropic_gaussian
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# D. Monelli.
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'''
Module :mod:`openquake.hmtk.seismicity.smoothing.kernels.isotropic_gaussian`
imports :class:`openquake.hmtk.seismicity.smoothing.kernels.isotropic_gaussian.IsotropicGaussian`
the simple isotropic Gaussian smoothing kernel as described by Frankel (1995)
Frankel, A. (1995) Mapping Seismic Hazard in the Central and Eastern United
States. Seismological Research Letters. 66(4) 8 - 21
'''
import numpy as np
from openquake.hmtk.seismicity.utils import haversine
from openquake.hmtk.seismicity.smoothing.kernels.base import (
BaseSmoothingKernel)
[docs]class IsotropicGaussian(BaseSmoothingKernel):
'''
Applies a simple isotropic Gaussian smoothing using an Isotropic Gaussian
Kernel - taken from Frankel (1995) approach
'''
[docs] def smooth_data(self, data, config, is_3d=False):
'''
Applies the smoothing kernel to the data
:param np.ndarray data:
Raw earthquake count in the form [Longitude, Latitude, Depth,
Count]
:param dict config:
Configuration parameters must contain:
* BandWidth: The bandwidth of the kernel (in km) (float)
* Length_Limit: Maximum number of standard deviations
:returns:
* smoothed_value: np.ndarray vector of smoothed values
* Total (summed) rate of the original values
* Total (summed) rate of the smoothed values
'''
max_dist = config['Length_Limit'] * config['BandWidth']
smoothed_value = np.zeros(len(data), dtype=float)
for iloc in range(0, len(data)):
dist_val = haversine(data[:, 0], data[:, 1],
data[iloc, 0], data[iloc, 1])
if is_3d:
dist_val = np.sqrt(dist_val.flatten() ** 2.0 +
(data[:, 2] - data[iloc, 2]) ** 2.0)
id0 = np.where(dist_val <= max_dist)[0]
w_val = (np.exp(-(dist_val[id0] ** 2.0) /
(config['BandWidth'] ** 2.))).flatten()
smoothed_value[iloc] = np.sum(w_val * data[id0, 3]) / np.sum(w_val)
return smoothed_value, np.sum(data[:, -1]), np.sum(smoothed_value)