Source code for openquake.hmtk.seismicity.declusterer.distance_time_windows
# -*- coding: utf-8 -*-
# vim: tabstop=4 shiftwidth=4 softtabstop=4
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# D. Monelli.
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"""
"""
import abc
import numpy as np
from openquake.baselib.general import CallableDict
TIME_DISTANCE_WINDOW_FUNCTIONS = CallableDict()
DAYS = 364.75
[docs]def time_window_cutoff(sw_time, time_cutoff):
"""
Allows for cutting the declustering time window at a specific time, outside
of which an event of any magnitude is no longer identified as a cluster
"""
sw_time = np.array(
[(time_cutoff / DAYS) if x > (time_cutoff / DAYS)
else x for x in sw_time])
return(sw_time)
[docs]class BaseDistanceTimeWindow(object):
"""
Defines the space and time windows, within which an event is identified
as a cluster.
"""
[docs] @abc.abstractmethod
def calc(self, magnitude, time_cutoff=None):
"""
Allows to calculate distance and time windows (sw_space, sw_time)
see reference: `Van Stiphout et al (2011)`.
:param magnitude: magnitude
:type magnitude: numpy.ndarray
:param time_cutoff: time window cutoff in days (optional)
:type time_cutoff: int
:returns: distance and time windows
:rtype: numpy.ndarray
"""
return
[docs]@TIME_DISTANCE_WINDOW_FUNCTIONS.add('GardnerKnopoff')
class GardnerKnopoffWindow(BaseDistanceTimeWindow):
"""
Gardner Knopoff method for calculating distance and time windows
"""
[docs] def calc(self, magnitude, time_cutoff=None):
sw_space = np.power(10.0, 0.1238 * magnitude + 0.983)
sw_time = np.power(10.0, 0.032 * magnitude + 2.7389) / DAYS
sw_time[magnitude < 6.5] = np.power(
10.0, 0.5409 * magnitude[magnitude < 6.5] - 0.547) / DAYS
if time_cutoff:
sw_time = time_window_cutoff(sw_time, time_cutoff)
return sw_space, sw_time
[docs]@TIME_DISTANCE_WINDOW_FUNCTIONS.add('Gruenthal')
class GruenthalWindow(BaseDistanceTimeWindow):
"""
Gruenthal method for calculating distance and time windows
"""
[docs] def calc(self, magnitude, time_cutoff=None):
sw_space = np.exp(1.77 + np.sqrt(0.037 + 1.02 * magnitude))
sw_time = np.abs(
(np.exp(-3.95 + np.sqrt(0.62 + 17.32 * magnitude))) / DAYS)
sw_time[magnitude >= 6.5] = np.power(
10, 2.8 + 0.024 * magnitude[magnitude >= 6.5]) / DAYS
if time_cutoff:
sw_time = time_window_cutoff(sw_time, time_cutoff)
return sw_space, sw_time
[docs]@TIME_DISTANCE_WINDOW_FUNCTIONS.add('UrhammerWindow')
class UhrhammerWindow(BaseDistanceTimeWindow):
"""
Uhrhammer method for calculating distance and time windows
"""
[docs] def calc(self, magnitude, time_cutoff=None):
sw_space = np.exp(-1.024 + 0.804 * magnitude)
sw_time = np.exp(-2.87 + 1.235 * magnitude) / DAYS
if time_cutoff:
sw_time = time_window_cutoff(sw_time, time_cutoff)
return sw_space, sw_time