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https://gitlab.science.ru.nl/mthesis-edeboone/m-thesis-introduction.git
synced 2024-12-22 03:23:34 +01:00
Rename TravelSignal to DigitisedSignal
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parent
19ccea30ca
commit
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5 changed files with 104 additions and 73 deletions
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@ -1,6 +1,6 @@
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from . import signal
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from . import signals
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from . import location
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from .util import *
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TravelSignal = signal.TravelSignal
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TravelSignal = signals.DigitisedSignal
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@ -1 +0,0 @@
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from .travelsignal import *
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2
simulations/lib/signals/__init__.py
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2
simulations/lib/signals/__init__.py
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from .signal import *
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from .digitisedsignal import *
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@ -1,17 +1,13 @@
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#!/usr/bin/env python3
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"""
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Define the TravelSignal class.
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"""
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import numpy as np
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import scipy.interpolate as interp
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try:
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from _signal import *
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from .signal import *
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except ImportError:
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from ._signal import *
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from signal import *
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class TravelSignal:
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class DigitisedSignal(Signal):
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"""
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Model an arbitrary digitised signal that can be translated to another position and time.
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"""
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@ -40,6 +36,7 @@ class TravelSignal:
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velocity : float, optional
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Defaults to the speed of light in m/s.
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"""
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super().__init__(t_0=t_0, x_0=x_0, velocity=velocity)
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self.raw = np.asarray(signal)
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self.periodic = periodic
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@ -48,11 +45,6 @@ class TravelSignal:
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self.sample_length = len(self.raw)
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self.time_length = self.sample_length*sample_rate # s
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self.velocity = 299792458 if velocity is None else velocity # m / s
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self.x_0 = x_0 # m
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self.t_0 = t_0 # s
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# choose interpolation method
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if not interp1d_kw:
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self.interp_f = None
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@ -83,12 +75,6 @@ class TravelSignal:
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def __len__(self):
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return self.sample_length
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def __call__(self, t_f = None, x_f = None, **kwargs):
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"""
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Allow this class to be used as a function.
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"""
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return self._translate(t_f, x_f, **kwargs)[0]
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def _translate(self, t_f = None, x_f = None, t_0 = None, x_0 = None, velocity = None):
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"""
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Translate the signal from (t_0, x_0) to (t_f, x_f) with optional velocity.
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@ -149,53 +135,6 @@ class TravelSignal:
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return amplitude, total_time_offset
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def spatial_time(self, x_f, velocity=None, x_0=None):
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"""
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Calculate the time offset caused by a spatial difference.
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"""
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if velocity is None:
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velocity = self.velocity
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if x_0 is None:
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x_0 = self.x_0
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return np.sum(np.sqrt( (x_f - x_0)**2 )/velocity)
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def total_time_offset(self, t_f = None, x_f = None, t_0 = None, x_0 = None, velocity = None):
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"""
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Calculate how much time shifting is needed to go from (t_0, x_0) to (t_f, x_f).
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Convention:
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(t_0, x_0) < (t_f, x_0) gives a positive time shift,
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(t_0, x_0) != (t_0, x_f) gives a negative time shift
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Returns:
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the time shift
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"""
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## spatial offset
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if x_f is None:
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spatial_time_offset = 0
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else:
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x_f = np.asarray(x_f)
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if x_0 is None:
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x_0 = self.x_0
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spatial_time_offset = self.spatial_time(x_f, x_0=x_0, velocity=velocity)
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## temporal offset
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if t_f is None:
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temporal_time_offset = 0
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else:
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t_f = np.asarray(t_f)
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if t_0 is None:
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t_0 = self.t_0
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temporal_time_offset = t_f - t_0
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return temporal_time_offset - spatial_time_offset
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if __name__ == "__main__":
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import matplotlib.pyplot as plt
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from scipy.stats import norm
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@ -210,17 +149,17 @@ if __name__ == "__main__":
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signal = norm.pdf(time, time[len(time)//2], (time[-1] - time[0])/10)
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mysignal = TravelSignal(signal, sample_rate, t_0 = t_offset, periodic=True)
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mysignal2 = TravelSignal(signal, sample_rate, t_0 = t_offset, periodic=False)
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mysignal = DigitisedSignal(signal, sample_rate, t_0 = t_offset, periodic=True)
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mysignal2 = DigitisedSignal(signal, sample_rate, t_0 = t_offset, periodic=False)
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fig, ax = plt.subplots(1, 1, figsize=(16,4))
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ax.set_title("Raw and TravelSignal")
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ax.set_title("Raw and DigitisedSignal")
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ax.set_ylabel("Amplitude")
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ax.set_xlabel("Time")
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ax.plot(time, signal, label='Raw signal')
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ax.plot(time2, mysignal(time2) +0.5, '.-', label='TravelSignal(periodic)+0.5')
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ax.plot(time2, mysignal2(time2)-0.5, '.-', label='TravelSignal-0.5')
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ax.plot(time2, mysignal(time2) +0.5, '.-', label='DigitisedSignal(periodic)+0.5')
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ax.plot(time2, mysignal2(time2)-0.5, '.-', label='DigitisedSignal-0.5')
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ax.legend()
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91
simulations/lib/signals/signal.py
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91
simulations/lib/signals/signal.py
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"""
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Define the super Signal class
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"""
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import numpy as np
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class Signal():
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"""
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An arbitrary signal that can be translated to another position and time.
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Note that position can be of any length.
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Super object, cannot be used directly.
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"""
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def __init__(self, t_0 = 0, x_0 = 0, velocity=None):
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"""
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Parameters
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----------
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t_0 : float, optional
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Time that this signal is sent out.
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x_0 : float, optional
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Location that this signal is sent out from.
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velocity : float, optional
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Defaults to the speed of light in m/s.
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"""
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self.velocity = 299792458 if velocity is None else velocity # m / s
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self.x_0 = x_0 # m
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self.t_0 = t_0 # s
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def __call__(self, t_f = None, x_f = None, **kwargs):
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"""
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Allow this class to be used as a function.
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"""
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return self._translate(t_f, x_f, **kwargs)[0]
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def _translate(self, t_f = None, x_f = None, t_0 = None, x_0 = None, velocity = None):
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"""
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Translate the signal from (t_0, x_0) to (t_f, x_f) with optional velocity.
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Returns the signal at (t_f, x_f)
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"""
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raise NotImplementedError
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def spatial_time(self, x_f, velocity=None, x_0=None):
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"""
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Calculate the time offset caused by a spatial difference.
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"""
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if velocity is None:
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velocity = self.velocity
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if x_0 is None:
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x_0 = self.x_0
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return np.sum(np.sqrt( (x_f - x_0)**2 )/velocity)
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def total_time_offset(self, t_f = None, x_f = None, t_0 = None, x_0 = None, velocity = None):
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"""
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Calculate how much time shifting is needed to go from (t_0, x_0) to (t_f, x_f).
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Convention:
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(t_0, x_0) < (t_f, x_0) gives a positive time shift,
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(t_0, x_0) != (t_0, x_f) gives a negative time shift
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Returns:
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the time shift
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"""
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## spatial offset
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if x_f is None:
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spatial_time_offset = 0
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else:
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x_f = np.asarray(x_f)
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if x_0 is None:
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x_0 = self.x_0
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spatial_time_offset = self.spatial_time(x_f, x_0=x_0, velocity=velocity)
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## temporal offset
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if t_f is None:
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temporal_time_offset = 0
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else:
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t_f = np.asarray(t_f)
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if t_0 is None:
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t_0 = self.t_0
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temporal_time_offset = t_f - t_0
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return temporal_time_offset - spatial_time_offset
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