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I am trying to create a program that records from the microphone and identifies the frequency in the tone that was produced. The code below records from the microphone, calculates the RMS of subintervals of the raw data, and saves them in a file.

import java.text.SimpleDateFormat;
import java.util.Calendar;
import javax.sound.sampled.*;

public class microphone {
    int passedValue, samplesPerSecond = 176400; 
    AudioFormat audioFormat; 
    PrintWriter printWriter; 
    SimpleDateFormat fileName; 
    TargetDataLine targetDataLine; 
    Tone toneThread;
public microphone() {
    toneThread = new Tone();
    fileName= new SimpleDateFormat("yyyyD;HHmm");
    audioFormat = new AudioFormat(samplesPerSecond, 8, 1, true, true);
    try {
        targetDataLine = AudioSystem.getTargetDataLine(audioFormat);;
        printWriter = new PrintWriter(new FileWriter(fileName.format(Calendar.getInstance().getTime())));
    } catch(Exception e) {e.printStackTrace();}

public static void main(String [] args) {
    microphone myMicrophone = new microphone(); 
            myMicrophone.passedValue = Integer.parseInt(args[0]); 
void capture() {
    try {Thread.sleep(500);} catch(Exception e) {}
    byte original[] = new byte[samplesPerSecond];, 0, original.length);
    for (int j = 0; j <= 2205; j++) {
        byte data[] = new byte[80];
        for (int i = 0; i < data.length; i++) 
                    data[i] = original[i + j];
        double average = 0; 
            for (int i = 0; i < data.length; i++) 
                     average += data[i]; 
            average /= data.length;
        double samplesPerSecond = 0; 
            for (int i = 0; i < data.length; i++) 
                     sumMeanSquare += Math.pow(data[i] - average, 2d);
        double averageMeanSquare = sumMeanSquare / (double)data.length; 
            double rootMeanSquare = Math.pow(averageMeanSquare, 0.5d);
        printWriter.println(((double)j / (double)4410) + "\t" + rootMeanSquare); 
class Tone extends Thread {
    int samplesPERSecond= 8000; 
            final double tau= 2 * Math.PI; 
            AudioFormat audioFormat; 
            SourceDataLine sourceDataLine;
    public Tone() {
        audioFormat= new AudioFormat(samplesPERSecond, 8, 1, true, true);
        try {
            sourceDataLine = AudioSystem.getSourceDataLine(audioFormat);
        } catch (Exception e) {}
    public void run() {
        byte[] song = new byte[(int)(samplesPERsecond)];
        for (int i = 0; i <= song.length - 1; i++) {
            song[i] = (byte)((127.0 / 100.0 * 10000) * Math.sin(i * tau * passedValue / samplesPERSecond));
        sourceDataLine.write(song, 0, song.length);

When this data is graphed, I do not get a perfect sinusoid. The frequency of the sound recorded in the file varies with respect to the frequency of the sound produced by the program in a nonlinear way. Sometimes I will even get the same frequency in the file for different frequencies produced!

I have tried varying the size of the subintervals (At a size of 10, the data is choppy and no sinusoid is visible; as the size of the subinterval is increased, the data becomes more continuous and looks more like a sinusoid.), but this did not improve the frequency accuracy. I apologize I cannot upload the graphs: this website does not allow uploading images directly and I do not have the means to upload them to other websites.

What am I doing wrong?

share|improve this question
It may not be your coding (however, you may need to check some of the math, I'm not an expert on this), or it may just be your microphone providing a margin of error larger that you want. – Grammar Sep 18 '12 at 21:45
void CptUre() That's it, I'm not reading further. Those choices for variable/method names make my head hurt. – Andrew Thompson Sep 19 '12 at 0:57
DuomCphn is better. – Sulthan Sep 19 '12 at 9:30
you should really consider condensing your code into a smaller example if you still want an answer. Also, your formatting and choice of names is still bad, even after your edits (e.g. class-names should begin with a capital letter) – Thorben Bochenek Mar 6 '13 at 14:47

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