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I'm trying to do real time pitch detection of a users singing, but I'm running into alot of problems. I've tried lots of methods, including FFT (FFT Problem (Returns random results)) and autocorrelation (Autocorrelation pitch detection returns random results with mic input), but I can't seem to get any methods to give a good result. Can anyone suggest a method for real-time pitch tracking or how to improve on a method I already have? I can't seem to find any good C / C++ methods for real time pitch detection.



Edit: Just to note, i've checked that the mic input data is correct, and that when using a sine wave the results are more or less the correct pitch.

Edit: Sorry this is late, but at the moment, im visualizing the autocolleration by taking the values out of the results array, and each index, and plotting the index on the X axis and the value on the Y axis (both are divided by 100000 or something, and im using OpenGL), plugging the data into a VST host and using VST plugins isn't an option to me. At the moment, it just looks like some random dots. Am i doing it correctly, or can you please point me torwards some code for doing it or help me understand how to visualize the raw audio data and autocorrelation data.

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I suspect that you've been "doing it wrong". Did you ever solve the underling problem from those other questions? The whole "random results" thing just sounds like you haven't got those methods working right, yet. –  dmckee Aug 30 '09 at 15:36
This problem seems to me to be very similar to detecting the pitch as done in the "Rock Band" game for vocals - and they seemed to get it to work quite alright. That makes me believe there must be a way to do it. It's just that by reading the Wikipedia article on pitch detection it seems that it's not quite a trivial problem. We hope you're going to post an answer here if you find a good method! –  Mike Dinescu Aug 30 '09 at 15:38
For debugging, try whistling. The sound of whistling contains one very strong frequency with few overtones. You should also visualise the output of the FFT, if you weren't doing so already. –  Thomas Aug 30 '09 at 16:05
I have to agree with Thomas on visualization. Plotting a graph is a great way to learn about the properties of the sound you're analyzing. –  avakar Aug 30 '09 at 16:32
... or in case of autocorrelation, the correlation coefficient for each possible period. –  avakar Aug 30 '09 at 19:57

8 Answers 8

up vote 23 down vote accepted

Taking a step back... To get this working you MUST figure out a way to plot intermediate steps of this process. What you're trying to do is not particularly hard, but it is error prone and fiddly. Clipping, windowing, bad wiring, aliasing, DC offsets, reading the wrong channels, the weird FFT frequency axis, impedance mismatches, frame size errors... who knows. But if you can plot the raw data, and then plot the FFT, all will become clear.

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How exactly does one plot the raw data and FFT? –  Helium3 Apr 25 '13 at 21:02
@Helium3: Waveform and spectrogram (2D). Check Audacity. –  MSalters Sep 26 '13 at 14:12

I found several open source implementations of real-time pitch tracking

There are also some pitch trackers out there which might not be designed for real-time, but may be usable that way for all I know, and could also be useful as a reference to compare your real-time tracker to:

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I had a similar problem with microphone input on a project I did a few years back - turned out to be due to a DC offset.

Make sure you remove any bias before attempting FFT or whatever other method you are using.

It is also possible that you are running into headroom or clipping problems.

Graphs are the best way to diagnose most problems with audio.

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Sorry if i sound stupid, but how do i visualize the result of the FFT / Autocorrelation? Would i take each value in the result array, and plot that and the magnitude of that value? –  Niall Aug 30 '09 at 16:26
You can remove DC bias with a high pass filter set to a very low cutoff. I usually go with 25-30 hertz, based on the lowest result from extended string (5- or 6-) bass guitars. –  Nosredna Aug 30 '09 at 16:27
I suggest running your input through a host and using the free VSTs Fre(a)koscope and s(M)exoscope to see the frequency response and the waveform graphically. –  Nosredna Aug 30 '09 at 16:29
Is there any other way to do it? VSTs Fre(a)koscope and s(M)exoscope is for windows and im on a mac. –  Niall Aug 30 '09 at 16:34
I think there's a plugin adaper that lets you use PC VSTs on Intel Macs. The vast majority of free plugins are PC (which is why I still do music on my PC rather than my Mac). There are some similar Mac tools, but most of them are not free. Try BlueCat's stuff. He has a spectrum analyzer and an oscilloscope. Or search the audio plugin database at kvraudio. Or just ask on a forum there. –  Nosredna Aug 30 '09 at 16:56

Check out aubio, and open source library which includes several state-of-the-art methods for pitch tracking.

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Take a look at this sample application:


I realize the app is in C# and you need C++, and I realize this is .Net/Windows and you're on a mac... But I figured his FFT implementation might be a starting reference point. Try to compare your FFT implementation to his. (His is the iterative, breadth-first version of Cooley-Tukey's FFT). Are they similar?

Also, the "random" behavior you're describing might be because you're grabbing data returned by your sound card directly without assembling the values from the byte-array properly. Did you ask your sound card to sample 16 bit values, and then gave it a byte-array to store the values in? If so, remember that two consecutive bytes in the returned array make up one 16-bit audio sample.

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Java code for a real-time real detector is available at http://code.google.com/p/freqazoid/.

It works fairly well on any computer running post-2008 real-time Java. The project has been dropped and could be picked up by any interested party. Contact me if you want further details.

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I have asked a similar question here:

C/C++/Obj-C Real-time algorithm to ascertain Note (not Pitch) from Vocal Input


Performous contains a C++ module for realtime pitch detection

Also Yin Pitch-Tracking algorithm

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Which question? Or did this questions accepted answer change? –  Helium3 Apr 25 '13 at 21:07
Sorry, I have repaired the answer which was missing the link. –  P i Jun 11 at 17:13

Can you adapt anything from instrument tuners? My delightfully compact guitar tuner is able to detect the pitch of the strings pretty well. I see this reference to a piano tuner which explains an algorithm to some extent.

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I've tried adapting stuff from some guitar tuner code (which used FFT), but the results were all over the place. –  Niall Aug 30 '09 at 15:55

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