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I would mention that I am not a seasoned programmer (yet). For my final year project I have chosen "Voice Analysis for Security". This would involve having some audio samples of certain individuals, and have someone speak into the microphone, and be allowed entry if this person's voice matches any of the samples. It's very early on in the process, so I've written a short program that opens a file and reads the bytes using the AudioInputStream class in Java. I got this piece from the Oracle trail pages:

public int[] readAudio(File file){
    int totalFramesRead = 0;
    try{
        AudioInputStream audioInputStream = AudioSystem.getAudioInputStream(file);
        int bytesPerFrame = audioInputStream.getFormat().getFrameSize();
        //System.out.println(bytesPerFrame);
        if(bytesPerFrame == AudioSystem.NOT_SPECIFIED){
            //some audio formats may have unspecified frame size
            //in that case we may read any amount of bytes
            bytesPerFrame = 1;
            System.out.println("Unspecified amount of frames in file");
        }

        //Set an arbitrary buffer size of 1024 frames.
        int numBytes = 1024 * bytesPerFrame;
        byte[] audioBytes = new byte[numBytes];
        try{
            int numBytesRead = 0;
            int numFramesRead = 0;
            //Try to read #numBytes bytes from the file
            while((numBytesRead = audioInputStream.read(audioBytes)) != -1){
                //Calculate the number of frames actually read.
                numFramesRead = numBytesRead / bytesPerFrame;
                totalFramesRead += numFramesRead;



            }
            //convert bytes to integers, because they can be negative
            audioValues = new int[audioBytes.length];
            for(int i = 0; i < audioBytes.length; i++) {
                if(audioBytes[i] < 0){
                    audioValues[i] = audioBytes[i] + 256;
                }
                System.out.print(audioValues[i] + " ");
            }


        } catch (Exception ex){
            System.out.println("Error! Problem with audio data");
        }
    } catch (Exception e){
        System.out.println("Error! Audio not compatible");
    }
    return audioValues; 
}

At the moment this gives me a large amount of integers when I open a wave file and apply this method to it.

So I need to apply a Fourier Transform (whichever) to convert from the time scale to the frequency scale. I then will have to compare this to the Fourier Transforms of the other samples.

My supervisor advised against implementing the Transforms myself and asked to find available tools or programs that do this for you, so that we can focus on the comparison section.

Am I going in in the right direction? I'm reading the Java sampled trail on oracle to try and understand how to work with sound, and I would appreciate your help here. Is there anything I'm missing out on that I should know? Was the conversion of bytes to integers correct? The 'tool' that would be ideal for me would be to read an audio file (or my array) and output the frequency values in another array, which I can work on.

Thanks so much.

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At the moment this gives me a large amount of integers when I open a wave file Hoooooray, it works! That is what FFT is for, isn't it? What is your error, or exact question? –  ppeterka Oct 18 '12 at 11:49
1  
"Was the conversion of bytes to integers correct?" You've asked about 3 or more questions when you should ask one, but a tip on this one is to plot it as you provide a plain sinusoidal waveform to it. Such a 'pure tone' is should look easily recognizable. A general tip on coding is to call Exception.printStackTrace() on every exception caught. –  Andrew Thompson Oct 18 '12 at 12:08

2 Answers 2

Just my two cents...

I've implemented a guitar tuner on J2ME, which is Java for mobile devices. The method I used to identify the tune being played relied on FFT as well. Before moving to the Java part, I'd recommend first implementing your idea as a proof of concept with a more math-oriented tool, like Matlab (if you have a license) or GNU Octave (free).

The main reason for that is that such tools already have all the math you will need properly implemented and tested. So you'll know the tools you're using are actually correct. Besides, when working with time-frequency transformations, it's often pretty useful to plot things to see what's going on. Both Matlab and Octave can do that with a couple of lines of code.

Once all the math is sorted out and you have a good deal of confidence that your ideas are correct, then I'd move to implementing this on Java. There are plenty of FFT implementations out there, like the ones covered in this thread

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well, i can say you are going right. you can use FFt,no proble. as a matter of fact, for my final year,i was workin on sounds 2,in java. you can use (tools) which may be refered as libraries. google minim library, you can download it,an can use it for frequency,jst one method fft() and pass buffeRate n no. of samples, u'll get your frequency. If you try to save a sound file (say .wav) it will cover a hell lot of space and hence, low processing speed. can you tell me that you can only use java? beacuse python will offer you a huge lib. of functions on sound :)) but you are going right,me 2 struggled alot,working with sounds on java lol well here is a link to download minim library,you can also see examples on fft n calculating frequency u need to install it.. http://code.compartmental.net/tools/minim/

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