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Trying to compute SVD in Python to find the most significant elements of a spectrum and created a matrix just containing the most significant parts.

In python I have:

u,s,v = linalg.svd(Pxx, full_matrices=True)

This gives 3 matrices back; where "s" contains the magnitudes that corresponds to u, v.

In order to construct a new matrix, containing all of the significant parts of the signal, I need to capture the highest values in "s" and match them with the columns in "u" and "v" and the resulting matrix should give me the most significant part of the data.

The problem is I don't know how I would do this in Python, for example, how do I find the highest numbers in "s" and select the columns in "u" and "v" in order to create a new matrix?

(I'm new to Python and numpy) so any help would be greatly appreciated

Edit:

import wave, struct, numpy as np, matplotlib.mlab as mlab, pylab as pl
from scipy import linalg, mat, dot;
def wavToArr(wavefile):
    w = wave.open(wavefile,"rb")
    p = w.getparams()
    s = w.readframes(p[3])
    w.close()
    sd = np.fromstring(s, np.int16)
    return sd,p

def wavToSpec(wavefile,log=False,norm=False):
    wavArr,wavParams = wavToArr(wavefile)
    print wavParams
    return  mlab.specgram(wavArr, NFFT=256,Fs=wavParams[2],detrend=mlab.detrend_mean,window=mlab.window_hanning,noverlap=128,sides='onesided',scale_by_freq=True)

wavArr,wavParams = wavToArr("wavBat1.wav")

Pxx, freqs, bins = wavToSpec("wavBat1.wav")
Pxx += 0.0001

U, s, Vh = linalg.svd(Pxx, full_matrices=True)
assert np.allclose(Pxx, np.dot(U, np.dot(np.diag(s), Vh)))

s[2:] = 0
new_a = np.dot(U, np.dot(np.diag(s), Vh))
print(new_a)
  • Change full_matrices=True to full_matrices=False. – unutbu Feb 2 '14 at 19:15
  • @unutbu - I've changed it. This segments. If I change full_matrices=True then I get the following error: ValueError: objects are not aligned.. Any ideas, sorry? – Phorce Feb 2 '14 at 19:17
  • When you say it "segments" do you mean there is a segmentation fault, and no error message? Or does it leave a stack trace and error message such as wave.Error: unknown format: -2? – unutbu Feb 2 '14 at 19:33
  • @unutbu Just get the following error: Segmentation fault (core dumped) The shape of Pxx: (129, 146) – Phorce Feb 2 '14 at 19:36
  • I've run your code (with full_matrices=False) on a number of .wavs and was unable to produce a Segmentation fault. Can you post PXX? Happily, it's not very large. – unutbu Feb 2 '14 at 19:43
13

linalg.svd returns s in descending order. So to select the n highest numbers in s, you'd simply form

s[:n]

If you set the smaller values of s to zero,

s[n:] = 0

then matrix multiplication would take care of "selecting" the appropriate columns of U and V.

For example,

import numpy as np
LA = np.linalg

a = np.array([[1, 3, 4], [5, 6, 9], [1, 2, 3], [7, 6, 8]])
print(a)
# [[1 3 4]
#  [5 6 9]
#  [1 2 3]
#  [7 6 8]]
U, s, Vh = LA.svd(a, full_matrices=False)
assert np.allclose(a, np.dot(U, np.dot(np.diag(s), Vh)))

s[2:] = 0
new_a = np.dot(U, np.dot(np.diag(s), Vh))
print(new_a)
# [[ 1.02206755  2.77276308  4.14651336]
#  [ 4.9803474   6.20236935  8.86952026]
#  [ 0.99786077  2.02202837  2.98579698]
#  [ 7.01104783  5.88623677  8.07335002]]

Given the data here,

import numpy as np
import scipy.linalg as SL
import matplotlib.pyplot as plt

Pxx = np.genfromtxt('mBtasJLD.txt')
U, s, Vh = SL.svd(Pxx, full_matrices=False)
assert np.allclose(Pxx, np.dot(U, np.dot(np.diag(s), Vh)))

s[2:] = 0
new_a = np.dot(U, np.dot(np.diag(s), Vh))
print(new_a)
plt.plot(new_a)
plt.show()

produces

enter image description here

  • Hello - Thanks for the reply. I tried this on my audio signal, but, it just segments. Could this be down to the s[2:]? – Phorce Feb 2 '14 at 19:01
  • Please see my edits, that is the code I'm trying to run – Phorce Feb 2 '14 at 19:06

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