def __init__(self):
        # Fetch the LIGO hanford data
        self.data, self.dt = fetch_LIGO_large()

        # subset of the data to plot
        t0 = 646
        T = 2
        self.tplot = self.dt * np.arange(T * 4096)
        self.dplot = self.data[4096 * t0:4096 * (t0 + T)]

        #print(len(tplot))   #8192
        #print(len(dplot))   #8192

        self.tplot = self.tplot[::10]
        self.dplot = self.dplot[::10]
Beispiel #2
0
of the detector.  The particular data used here is the injected
`Big Dog <http://www.ligo.org/news/blind-injection.php>`_ event.
"""
# Author: Jake VanderPlas <*****@*****.**>
# License: BSD
#   The figure is an example from astroML: see http://astroML.github.com
import numpy as np
from matplotlib import pyplot as plt
from scipy import fftpack
from matplotlib import mlab

from astroML.datasets import fetch_LIGO_large

#------------------------------------------------------------
# Fetch the LIGO hanford data
data, dt = fetch_LIGO_large()

# subset of the data to plot
t0 = 646
T = 2
tplot = dt * np.arange(T * 4096)
dplot = data[4096 * t0:4096 * (t0 + T)]

tplot = tplot[::10]
dplot = dplot[::10]

fmin = 40
fmax = 2060

#------------------------------------------------------------
# compute PSD using simple FFT
Beispiel #3
0
"""
# Author: Jake VanderPlas <*****@*****.**>
# License: BSD
#   The figure produced by this code is published in the textbook
#   "Statistics, Data Mining, and Machine Learning in Astronomy" (2013)
#   For more information, see http://astroML.github.com
import numpy as np
from matplotlib import pyplot as plt
from scipy import fftpack
from matplotlib import mlab

from astroML.datasets import fetch_LIGO_large

#------------------------------------------------------------
# Fetch the LIGO hanford data
data, dt = fetch_LIGO_large()

# subset of the data to plot
t0 = 646
T = 2
tplot = dt * np.arange(T * 4096)
dplot = data[4096 * t0: 4096 * (t0 + T)]

tplot = tplot[::10]
dplot = dplot[::10]

fmin = 40
fmax = 2060

#------------------------------------------------------------
# compute PSD using simple FFT