# JTransforms FFT in Android from PCM data

I've been playing with this now for sometime, I cant work out what I am meant to be doing here.

I am reading in PCM audio data into an audioData array:

`````` recorder.read(audioData,0,bufferSize);     //read the PCM audio data into the audioData array
``````

I want to use Piotr Wendykier's JTransform library in order to preform an FFT on my PCM data in order to obtain the frequency.

``````import edu.emory.mathcs.jtransforms.fft.DoubleFFT_1D;
``````

At the moment I have this:

``````       DoubleFFT_1D fft = new DoubleFFT_1D(1024); // 1024 is size of array

for (int i = 0; i < 1023; i++) {
a[i]= audioData[i];
if (audioData[i] != 0)
Log.v(TAG, "audiodata=" + audioData[i] + " fft= " + a[i]);
}
fft.complexForward(a);
``````

I cant make sense of how to work this, can somebody give me some pointers? Will i have to perform any calculations after this?

I'm sure I'm way off, anything would be greatly appreciated!

Ben

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Sorry I should have said what complexForward does: Computes 1D forward DFT of complex data leaving the result in a. Complex number is stored as two double values in sequence: the real and imaginary part, i.e. the size of the input array must be greater or equal 2*n. The physical layout of the input data has to be as follows: a[2*k] = Re[k], a[2*k+1] = Im[k], 0<=k<n –  Ben Taliadoros Oct 4 '11 at 13:55
give me any example... –  NagarjunaReddy Mar 5 at 8:07

If you're just looking for the frequency of a single sinusoidal tone in the input waveform then you need to find the FFT peak with the largest magnitude, where:

``````Magnitude = sqrt(re*re + im*im)
``````

The index `i` of this largest magnitude peak will tell you the approximate frequency of your sinusoid:

``````Frequency = Fs * i / N
``````

where:

``````Fs = sample rate (Hz)
i = index of peak
N = number of points in FFT (1024 in this case)
``````
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That sounds very much like what I am trying to do. However I am unsure how to get the real and imaginary values out of the transform. Also I'm not sure as to whether I should be using a DoubleFFT_1D class? as opposed to the DoubleFFT_2D class, or the FloatFFT_1D class etc –  Ben Taliadoros Oct 4 '11 at 15:40
You only need a 1D FFT for audio (2D FFTs are usually for 2D data such as images etc). From what you said in your question above it sounds like the real and imag components are interleaved, so bin i has real component at index 2*i and imag component at index 2*i + 1. –  Paul R Oct 4 '11 at 16:02
Thanks Paul, thats great, a couple of things I dont understand... do I pass the audioData array like this fft.complexForward(audioData);? and if I do, does it manipulate the array? it has no return type. Thanks –  Ben Taliadoros Oct 4 '11 at 16:12
I'm not familiar with this specific FFT but yes it sounds like it's what is known as an "in place" implementation, so you pass time domain data in and it gets overwritten with the frequency domain result. For the input you set the real parts (2*i) to your sample data values and the imaginary parts (2*i+1) to 0. –  Paul R Oct 4 '11 at 16:32
So should i double each index in the audio data array before passing it to the FFT? ie (2*i)? –  Ben Taliadoros Oct 4 '11 at 16:39

If you're looking for the FFT of an Audio input ( 1D, real data ), should'nt you be using the 1D REAL Fft?

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its something i will experiment with –  Ben Taliadoros Oct 26 '11 at 12:28

Yes you need to use realForward function instead of complexForward, because you pass it a real array and not a complex array from doc.

EDIT:

Or you can get the real part and perform complex to complex fft like this :

``````double[] in = new double[N];
double[] fft = new double[N * 2];

for(int i = 0; i < ffsize; ++i)
{
fft[2*i] = mic[i];
fft[2*i+1] = 0.0;
}
fft1d.complexForward(fft);
``````

I try and I compare results with matlab, and I don't get same results... (magnitude)

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