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I want to develop an app for detecting wind according the audio stream.
I need some expert thoughts here, just to give me guide lines or some links, I know this is not easy task but I am planning to put a lot of effort here.

My plan is to detect some common patterns in the stream, and if the values are close to this common patterns of the wind noise I will notify that match is found, if the values are closer to the known pattern great, I can be sure that the wind is detected, if the values doesn't match with the patterns then I guess there is no so much wind....

That is my plan at first, but I need to learn how this things are done. Is there some open project already doing this ? Or is there someone who is doing research on this topics ?

The reason I write on this forum is because I do not know how to google it, the things I found was not I was looking for. I really do not know how to start developing this kind of algorithm.

EDIT 1 :
I tried to record a wind, and when I open the saved audio file for me it was just a bunch of numbers :). I do not even see in what format should I save this, is wave good enough ? Should I use something else, or what if I convert the wind noise audio file in mp3 : is this gonna help with parsing ?

Well I got many questions, that is because I do not know from where to read more about this kind of topic. I tag my question with guidlines so I hope someone will help me.

There must be something that is detectable, cause the wind noise is so common, there must be somehow to detect this, we need only someone to give me tips, someone who is familiar with this topic.

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+1: Interesting and honest question. –  leppie Nov 14 '11 at 11:00
Have you already recorded some wind noise samples? How do they look? I mean the time series, the power spectra... –  kol Nov 14 '11 at 11:05
Wind is silent by itself. It is the interaction with other elements that makes noise: leaves, houses, oboes, microphones... So you have first to narrow your environment. –  mouviciel Nov 14 '11 at 11:33
you might want to look on dsp.stackexchange.com too –  Agos Nov 14 '11 at 11:41
@mouviciel: not quite.. a microphone alone can pick up the "sound" of the wind. –  Karoly Horvath Nov 14 '11 at 12:15

3 Answers 3

The science for your problem is called "pattern classification", especially the subfield of "audio pattern classification". The task is abstracted as classifying a sound recording into two classes (wind and not wind). You seem to have no strong background in signal processing yet, so let me insert one central warning: Pattern classification is not as easy as it looks at first. Humans excel at pattern classification. Computers don't.

A good first approach is often to compute the correlation of the Fourier transform of your signal and a sample. Don't know how much that will depend on wind speed, however.

You might want to have a look at the bag-of-frames approach, it was used successfully to classify ambient noise.

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As @thiton mentioned this is an example of audio pattern classification.

Main characteristics for wind: it's a shaped (band/hp filtered) white noise with small semi-random fluctuations in amplitude and pitch. At least that's how most synthesizers reproduce it and it sounds quite convincing.

You have to check the spectral content and change in the wavefile, so you'll need FFT. Input format doesn't really matter, but obviously raw material (wav) is better.

Once you got that you should detect that it's close to some kind of colored noise and then perhaps extract series of pitch and amplitude and try to use classic pattern classification algorithm for that data set. I think supervised learning could work here.

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I just came across this post I have recently made a library which can detect wind noise in recordings.

I made a model of wind noise and created a database of examples and then trained a Machine Learning algorithm to detect and meter the wind level in a perceptually weighted way.

The C++/C code is here if it is of use to anyone!

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Can you tell us a little more about your project? I'd like to know how the code is licensed (is it open source, which license?) The question also asks for some guidance about how to implement this. What general approach did you take? –  Stephen Ostermiller Jun 26 '14 at 13:28
Hi my project is called the good recording project, it is a research project at the University of Salford, UK www.goodrecording.net. We are looking at ways to automatically determine the quality of audio, particularly in user generated content. The code is open source, it is licensed under the MIT License. The approach I used was to make a model of wind noise, add the noise to many examples of speech music and soundscapes, then extract audio features (MFCCs) and train a random forest classifier with the quantised signal to noise ratio as the class label. –  Kenders2000 Jul 10 '14 at 12:11

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