JavaAlgorithms/Maths/ConvolutionFFT.java

package com.maths;

import java.util.ArrayList;

/**
 * Class for linear convolution of two discrete signals using the convolution theorem.
 *
 * @author Ioannis Karavitsis
 * @version 1.0
 * */
public class ConvolutionFFT
{
    /**
     * This method pads the signal with zeros until it reaches the new size.
     *
     * @param x The signal to be padded.
     * @param newSize The new size of the signal.
     * */
    private static void padding(ArrayList<FFT.Complex> x, int newSize)
    {
        if(x.size() < newSize)
        {
            int diff = newSize - x.size();
            for(int i = 0; i < diff; i++)
                x.add(new FFT.Complex());
        }
    }

    /**
     * Discrete linear convolution function. It uses the convolution theorem for discrete signals convolved: = IDFT(DFT(a)*DFT(b)).
     * This is true for circular convolution. In order to get the linear convolution of the two signals we first pad the two signals to have the same size equal to the convolved signal (a.size() + b.size() - 1).
     * Then we use the FFT algorithm for faster calculations of the two DFTs and the final IDFT.
     *
     * More info:
     * https://en.wikipedia.org/wiki/Convolution_theorem
     * https://ccrma.stanford.edu/~jos/ReviewFourier/FFT_Convolution.html
     *
     * @param a The first signal.
     * @param b The other signal.
     * @return The convolved signal.
     * */
    public static ArrayList<FFT.Complex> convolutionFFT(ArrayList<FFT.Complex> a, ArrayList<FFT.Complex> b)
    {
        int convolvedSize = a.size() + b.size() - 1;   //The size of the convolved signal
        padding(a, convolvedSize);         //Zero padding both signals
        padding(b, convolvedSize);

        /* Find the FFTs of both signals (Note that the size of the FFTs will be bigger than the convolvedSize because of the extra zero padding in FFT algorithm) */
        FFT.fft(a, false);
        FFT.fft(b, false);
        ArrayList<FFT.Complex> convolved = new ArrayList<>();

        for(int i = 0; i < a.size(); i++)
            convolved.add(a.get(i).multiply(b.get(i)));   //FFT(a)*FFT(b)

        FFT.fft(convolved, true);          //IFFT
        convolved.subList(convolvedSize, convolved.size()).clear();   //Remove the remaining zeros after the convolvedSize. These extra zeros came from paddingPowerOfTwo() method inside the fft() method.

        return convolved;
    }
}