I'm trying to find frequencies by the Cepstral method. For my tests I got the following file http://www.mediacollege.com/audio/tone/files/440Hz_44100Hz_16bit_05sec.wav, an audio signal with a frequency of 440Hz.

I've applied the following formula:

cepstrum = IFFT (log FFT (s))

I'm getting 256 chunk, But my results are always wrong ...

```
from numpy.fft import fft, ifft
import math
import wave
import numpy as np
from scipy.signal import hamming
index1=15000;
frameSize=256;
spf = wave.open('440.wav','r');
fs = spf.getframerate();
signal = spf.readframes(-1);
signal = np.fromstring(signal, 'Int16');
index2=index1+frameSize-1;
frames=signal[index1:int(index2)+1]
zeroPaddedFrameSize=16*frameSize;
frames2=frames*hamming(len(frames));
frameSize=len(frames);
if (zeroPaddedFrameSize>frameSize):
zrs= np.zeros(zeroPaddedFrameSize-frameSize);
frames2=np.concatenate((frames2, zrs), axis=0)
fftResult=np.log(abs(fft(frames2)));
ceps=ifft(fftResult);
posmax = ceps.argmax();
result = fs/zeroPaddedFrameSize*(posmax-1)
print result
```

For this case how get the result = 440?

**

UPDATE:

**

Well i rewrote my source in matlab, and now everything seems to work, i did tests with frequencies of 440 Hz and 250 Hz ...

For 440Hz i get 441Hz not bad

For 250Hz i get 249.1525Hz near result

I did make one simple way to get the peaks into cepstral values.

I think I can find better results using quadract interpolation to find the maximum !

I'm plotting my results for the estimation of 440Hz

Sharing the source for Cepstral Frequency estimation:

```
%% ederwander Cepstral Frequency (Matlab)
waveFile='440.wav';
[y, fs, nbits]=wavread(waveFile);
subplot(4,2,1); plot(y); legend('Original signal');
startIndex=15000;
frameSize=4096;
endIndex=startIndex+frameSize-1;
frame = y(startIndex:endIndex);
subplot(4,2,2); plot(frame); legend('4096 CHUNK signal');
%make hamming window
win = hamming(length(frame));
%samples multplied by hamming window
windowedSignal = frame.*win;
fftResult=log(abs(fft(windowedSignal)));
subplot(4,2,3); plot(fftResult); legend('FFT signal');
ceps=ifft(fftResult);
subplot(4,2,4); plot(ceps); legend('ceps signal');
nceps=length(ceps)
%find the peaks in ceps
peaks = zeros(nceps,1);
k=3;
while(k <= nceps - 1)
y1 = ceps(k - 1);
y2 = ceps(k);
y3 = ceps(k + 1);
if (y2 > y1 && y2 >= y3)
peaks(k)=ceps(k);
end
k=k+1;
end
subplot(4,2,5); plot(peaks); legend('PEAKS');
%get the maximum ...
[maxivalue, maxi]=max(peaks)
result = fs/(maxi+1)
subplot(4,2,6); plot(result); %legend('Frequency is' result);
legend(sprintf('Final Result Frequency =====>>> (%8.3f)',result))
```