Python iaaft Examples

Programming Language: Python

Namespace/Package Name: nolitsa.surrogates

Method/Function: iaaft

Examples at hotexamples.com: 3

Python iaaft - 3 examples found. These are the top rated real world Python examples of nolitsa.surrogates.iaaft extracted from open source projects. You can rate examples to help us improve the quality of examples.

Example #1

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File: mismatch.py Project: yanyan-cas/nolitsa

# end, d = surrogates.mismatch(x, length=1024)

plt.subplot(211)
plt.title(r'Original time series')
plt.ylabel(r'Measurement $x(t)$')

plt.plot(np.arange(3800), x[100:3900], '--')
plt.plot(np.arange(437, 3562), x[537:3662])

plt.subplot(212)
plt.xlabel(r'Time $t$')
plt.ylabel(r'Measurement $x(t)$')
plt.plot(np.arange(3800), x[100:3900], '--')
plt.plot(np.arange(322, 3447), x[422:3547])

y1 = surrogates.iaaft(x[537:3663])[0]
y2 = surrogates.iaaft(x[422:3547])[0]

plt.figure(2)

plt.subplot(211)
plt.title(r'Surrogate time series')
plt.ylabel(r'Measurement $x(t)$')
plt.plot(y1[:500])

plt.subplot(212)
plt.xlabel(r'Time $t$')
plt.ylabel(r'Measurement $x(t)$')
plt.plot(y2[:500])

plt.show()

Example #2

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File: corrnoise.py Project: yanyan-cas/nolitsa

"""

import matplotlib.pyplot as plt
import numpy as np
from nolitsa import surrogates, d2, noise, delay

x = noise.sma(np.random.normal(size=(2 ** 12)), hwin=100)
ends = surrogates.mismatch(x)[0]
x = x[ends[0]:ends[1]]
act = np.argmax(delay.acorr(x) < 1 / np.e)

mle = np.empty(19)

# Compute 19 IAAFT surrogates and compute the correlation sum.
for k in range(19):
    y = surrogates.iaaft(x)[0]
    r, c = d2.c2_embed(y, dim=[7], tau=act, window=act)[0]

    # Compute the Takens MLE.
    r_mle, mle_surr = d2.ttmle(r, c)
    i = np.argmax(r_mle > 0.5 * np.std(y))
    mle[k] = mle_surr[i]

    plt.loglog(r, c, color='#BC8F8F')

r, c = d2.c2_embed(x, dim=[7], tau=act, window=act)[0]

# Compute the Takens MLE.
r_mle, true_mle = d2.ttmle(r, c)
i = np.argmax(r_mle > 0.5 * np.std(x))
true_mle = true_mle[i]

Example #3

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surrogates are closer to the true power spectrum (cf. the plot in
"aaft.py").
"""

from scipy.signal import welch
from nolitsa import surrogates

import matplotlib.pyplot as plt
import numpy as np

x = np.loadtxt('../series/br1.dat', usecols=[1], unpack=True)

plt.title(r'Power spectrum of human breath rate (IAAFT surrogates)')
plt.xlabel(r'Frequency $f$')
plt.ylabel(r'Power $P(f)$')

# Compute 19 IAAFT surrogates and plot the spectrum.
for k in range(19):
    y, i, e = surrogates.iaaft(x)
    f, p = welch(y, nperseg=128, detrend='constant',
                 window='boxcar', scaling='spectrum', fs=2.0)

    plt.semilogy(f, p, color='#CA5B7C')

# Calculate true power spectrum.
f0, p0 = welch(x, nperseg=128, detrend='constant',
               window='boxcar', scaling='spectrum', fs=2.0)

plt.semilogy(f0, p0, color='#000000')
plt.show()