# Detecting fundamental frequency with comb filter

I need to use comb filter/transform to detect fundamental frequency of a wav file in java. I also needed to implement ZCR, but this was easy.

Now I have this:

int best = 0, best_step = 0;
for (int step = 3; step < 400; ++step) {
int sum = 0;
for (i = 1; i < 10 && i * step < spectrum.length; ++i) {
for (int di = 0; di < i; ++di) {
sum += spectrum[i * step + di] / i;
}
}

sum *= 100;
}
int sum = 0;

for (i = 0; i < comb.size(); ++i) {
sum = comb.get(i); // 3 * comb[i] - comb[i-1] - comb[i+1];
System.out.println(i + " - " + sum);
if (sum > best) {
best_step = i;
best = sum;
}
}

And my problem is that this code detects the wrong frequency. ;( I have searched for an algorithm/implementation (in any language) but have not found anything.

Note, I cannot use autocorelation, etc.. It must be comb filtering.

Edit: A little more explanation of my code:

I load a wav file and put frames to array frames. Then I make fft on it and have array of Complex (named widmo) (simple structure to handle complex numbers).

Now I put abs of Complex numbers into array spectrum:

double[] spectrum = new double[widmo.length];

for (i = 0; i + 1 < widmo.length; ++i) {
spectrum[i] = widmo[i].abs();
}

ArrayList<Integer> comb = new ArrayList<Integer>();
int best = 0, best_step = 0;
for (int step = 3; step < 400; ++step) {
int sum = 0;
for (i = 1; i < 10 && i * step < spectrum.length; ++i) {
for (int di = 0; di < i; ++di) {
sum += spectrum[i * step + di] / i;
}
}

// sum /= step + 100; // ta linijka pozwala usunÄ…Ä‡ sporo
// niespodziewanych skokĂłw czÄ™stotliwoĹ›ci

sum *= 100;
}
int sum = 0;

for (i = 0; i < comb.size(); ++i) {
sum = comb.get(i); // 3 * comb[i] - comb[i-1] - comb[i+1];
// ctx.fillRect(i, canvas.height, 1, -sum);
System.out.println(i + " - " + sum);
if (sum > best) {
best_step = i;
best = sum;
}
}
System.out.println();
System.out.println(best_step);
System.out.println(4 * 44100);
System.out.println((frames.length / numChanels));
System.out.println(best_step * 44100
/ (frames.length / numChanels));

The last println should show me my fundamental frequency, but it doesn't,.

I got this in javascript from my friend.

-
Can you post a reference to the algorithm you're trying to implement? Also, what testing and debugging have you done? –  Oli Charlesworth Jun 10 '12 at 11:34
I also think you should edit this to include more code. I'm not even clear on the datatypes of all your vars. –  Bjorn Roche Jun 10 '12 at 13:33
added more explanation:) –  Marcin Pełka Jun 10 '12 at 19:20

I figure it out (i think:P). Last println gives basic freq :). Maybe someone will need it or even imporve it :)

ArrayList<double[]> okna = new ArrayList<>();
ArrayList<freqTime> lista = new ArrayList<freqTime>();

int po2 = (int) Math.pow(2,
Integer.parseInt((String) potega2Input.getText()));

po2 /= 2;
double[] triangles = new double[po2];
double maxWykres = 0;
int licznik = 0;
int licznik2 = 0;
int T = frames.length;

boolean wykresFlaga = false;

for (int k = 0; k < T; k += po2) {

licznik = 0;
licznik2 = 0;
double[] tmp = new double[po2];

Complex[] zespolone = new Complex[po2];

for (int i = k; i < k + po2; i++) {

if (i < T) {
tmp[licznik] = frames[i];
zespolone[licznik] = new Complex(frames[i], 0);
licznik2 = licznik;
} else {
tmp[licznik] = frames[licznik2];
zespolone[licznik] = zespolone[licznik2];

}
licznik++;
}

FFT fft = new FFT();

zespolone = fft.fft(zespolone);

double maxF = 0;
double maxFI = 0;

double maxH = findMaxComp(zespolone);
double[] doWykresu = new double[zespolone.length];
for (int a = 2; a < 100; a++) {

for (int i = 0; i < po2; i++) {
doWykresu[i] = zespolone[i].abs();
triangles[i] =  Math.abs(i % (2 * a) - a)
* (maxH) / a;

// triangles[i] = Math.abs(i % (2 * a) - a) * (maxH)
// / a;

}

double sumT = 0;
for (int i = 0; i < po2 / 2; i++) {

sumT += triangles[i] * doWykresu[i];
}

if (sumT > maxF) {
maxF = sumT;
maxFI = a;
}

}
//
// maxFI /= 2;
//
if (wykresFlaga == false) {
maxWykres = maxH;
}
for (int i = 0; i < po2; i++) {
doWykresu[i] = zespolone[i].abs();
triangles[i] =  Math.abs(i % (2 * maxFI) - maxFI)
* (maxWykres) / maxFI;

}
if (wykresFlaga == false) {
System.out.println("Max w widmie: " + maxWykres);
new Wykres(doWykresu, 1, triangles);
wykresFlaga = true;
}
// System.out.println((2 * 44100 / po2) * maxFI);
System.out.println((float) (44100 / (float) po2)
* 2*(float) maxFI + " Znalzione a: " + maxFI);