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Wrote a frequency domain pitch detection algorithm in C and now I'm trying to estimate the fundamental frequency. I have the maximum magnitude bin from the Fourier Transform, but that can also be an harmonic not necessary F0. I read somewhere that it is possible to estimate F0 using cepstral analysis. So, here are the steps I follow:

  1. Take time domain buffer x, make a windowed copy w.
  2. FTTw = FFT(w)
  3. a = Log of square magnitude of FTTw
  4. FTTa = FFT(a)
  5. b = square magnitude of FTTa
  6. Estimate fundamental using b

I'm having trouble with the last step (6). The magnitudes in b are pretty high and I'm not sure I fully understand what they represent (quefrencies?) and most of all how can I estimate the fundamental based on them.

Any advice is welcome! Thanks!

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Since this is more DSP-related than programming-related you might want to try dsp.stackexchange.com instead of stackoverflow.com –  Paul R Oct 18 '11 at 20:57
    
Done that, was there several hours, got no answer/comment. I guess the community is still small, so I tried my luck here :) –  Valentin Radu Oct 18 '11 at 21:07
    
You probably need to be patient - give it 24 hours or so - different time zones etc. If you get an answer here it will probably be from someone who is active on dsp.stackexchange.com anyway... –  Paul R Oct 18 '11 at 21:10

1 Answer 1

up vote 1 down vote accepted

The location of the peak in the cepstrum (on the quefrency axis) tells you the pitch period of your original signal. The magnitude of the peak is not particularly important.

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Thank you Paul, I have one more small question: can I make a quadratic interpolation to increase accuracy between the peaks in the cepstrum or should I come back to the original FFT data with the known frequency and do it there. (sorry for adding another question to the original :D, but I saw you helped others on SO regarding DSP issues and I thought you may know) –  Valentin Radu Oct 18 '11 at 21:30
    
Probably a better way to do this is to zero pad your original FFT input - this gives you an interpolated spectrum with higher resolution. Or just use a bigger time window if you really do need higher accuracy. –  Paul R Oct 18 '11 at 22:33

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