# Using scipy.signal.spectral.lombscargle for period discovery

The new Scipy v0.11 offers a package for spectral analysis. Unfortunately the documentation is sparse and there aren't many available examples.

As a baby example, I'm trying to do period discovery of a sine wave. Unfortunately it predicts a period of `1` instead of the expected `2pi`. Any ideas?

``````# imports the numerical array and scientific computing packages
import numpy as np
import scipy as sp
from scipy.signal import spectral

# generates 100 evenly spaced points between 1 and 1000
time = np.linspace(1, 1000, 100)

# computes the sine value of each of those points
mags = np.sin(time)

# scales the sine values so that the mean is 0 and the variance is 1 (the documentation specifies that this must be done)
scaled_mags = (mags-mags.mean())/mags.std()

# generates 1000 frequencies between 0.01 and 1
freqs = np.linspace(0.01, 1, 1000)

# computes the Lomb Scargle Periodogram of the time and scaled magnitudes using each frequency as a guess
periodogram = spectral.lombscargle(time, scaled_mags, freqs)

# returns the inverse of the frequence (i.e. the period) of the largest periodogram value
1/freqs[np.argmax(periodogram)]
``````

This returns `1` instead of the expected period of `2pi ~= 1/0.6366`. Any ideas?

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Note: do `from scipy.signal import lombscargle`, not `from scipy.signal import spectral` --- see docs.scipy.org/doc/scipy/reference/api.html#api-definition –  pv. Nov 12 '12 at 20:41

Please notice that the last argument of `spectral.lombscargle` is the angular frequency according to the docstring:

``````Parameters
----------
x : array_like
Sample times.
y : array_like
Measurement values.
freqs : array_like
Angular frequencies for output periodogram.
``````
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Does that mean the result should be multiplied by 2pi? –  rhombidodecahedron Nov 12 '12 at 20:11
Yes, angular frequency is given in radians/s. You can read more on this in wikipedia –  btel Nov 12 '12 at 20:13
@EarlBellinger you can also accept the answer if you are happy with it. –  btel Nov 12 '12 at 22:09
Indeed; I was just confirming that it worked for my non-trivial example before accepting. I have now confirmed that it works! Thank you so much! –  rhombidodecahedron Nov 14 '12 at 0:56