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c# - Image convolution in frequency domain

I want to Convolve Lena with itself in the Frequency Domain. Here is an excerpt from a book. which suggests how should the output of the convolution be:

enter image description here

I have written the following application to achieve the Convolution of two images in the frequency domain. The steps I followed are as follows:

  1. Convert Lena into a matrix of complex numbers.
  2. Apply FFT to obtain a complex matrix.
  3. Multiply two complex matrices element by element (if that is the definition of Convolution).
  4. Apply IFFT to the result of the multiplication.

The output seems to be not coming as expected:

enter image description here

Two issues are visible here:

  • The output only contains a black background with only one dot at its center.
  • The original image gets distorted after the the execution of convolution.

.

Note. FFT and I-FFT are working perfectly with the same libraries.

enter image description here

Note-2. There is a thread in SO that seems to be discussing the same topic.

.

Source Code:

public static class Convolution
{
    public static Complex[,] Convolve(Complex[,]image, Complex[,]mask)
    {
        Complex[,] convolve = null;

        int imageWidth = image.GetLength(0);
        int imageHeight = image.GetLength(1);

        int maskWidth = mask.GetLength(0);
        int maskeHeight = mask.GetLength(1);

        if (imageWidth == maskWidth && imageHeight == maskeHeight)
        {
            FourierTransform ftForImage = new FourierTransform(image); ftForImage.ForwardFFT();
            FourierTransform ftForMask = new FourierTransform(mask); ftForMask.ForwardFFT();

            Complex[,] fftImage = ftForImage.FourierTransformedImageComplex;                
            Complex[,] fftKernel = ftForMask.FourierTransformedImageComplex;

            Complex[,] fftConvolved = new Complex[imageWidth, imageHeight];

            for (int i = 0; i < imageWidth; i++)
            {
                for (int j = 0; j < imageHeight; j++)
                {
                    fftConvolved[i, j] = fftImage[i, j] * fftKernel[i, j];
                }
            }

            FourierTransform ftForConv = new FourierTransform();
            ftForConv.InverseFFT(fftConvolved);
            convolve = ftForConv.GrayscaleImageComplex;

            //convolve = fftConvolved;
        }
        else
        {
            throw new Exception("padding needed");
        }

        return convolve;
    }
}

    private void convolveButton_Click(object sender, EventArgs e)
    {
        Bitmap lena = inputImagePictureBox.Image as Bitmap;
        Bitmap paddedMask = paddedMaskPictureBox.Image as Bitmap;

        Complex[,] cLena = ImageDataConverter.ToComplex(lena);
        Complex[,] cPaddedMask = ImageDataConverter.ToComplex(paddedMask);

        Complex[,] cConvolved = Convolution.Convolve(cLena, cPaddedMask);

        Bitmap convolved = ImageDataConverter.ToBitmap(cConvolved);

        convolvedImagePictureBox.Image = convolved;
    }
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There is a difference in how you call InverseFFT between the working FFT->IFFT application, and the broken Convolution application. In the latter case you do not pass explicitly the Width and Height parameters (which you are supposed to get from the input image):

public void InverseFFT(Complex[,] fftImage)
{
    if (FourierTransformedImageComplex == null)
    {
       FourierTransformedImageComplex = fftImage;
    }

    GrayscaleImageComplex = FourierFunction.FFT2D(FourierTransformedImageComplex, Width, Height, -1);

    GrayscaleImageInteger = ImageDataConverter.ToInteger(GrayscaleImageComplex);
    InputImageBitmap = ImageDataConverter.ToBitmap(GrayscaleImageInteger);
}

As a result both Width and Height are 0 and the code skips over most of the inverse 2D transformation. Initializing those parameters should give you something which is at least not all black.

    if (FourierTransformedImageComplex == null)
    {
        FourierTransformedImageComplex = fftImage;
        Width = fftImage.GetLength(0);
        Height = fftImage.GetLength(1);
    }

enter image description here

Then you should notice some sharp white/black edges. Those are caused by wraparounds in the output values. To avoid this, you may want to rescale the output after the inverse transform to fit the available scale with something such as:

double maxAmp = 0.0;
for (int i = 0; i < imageWidth; i++)
{
    for (int j = 0; j < imageHeight; j++)
    {
        maxAmp = Math.Max(maxAmp, convolve[i, j].Magnitude);
    }
}
double scale = 255.0 / maxAmp;
for (int i = 0; i < imageWidth; i++)
{
    for (int j = 0; j < imageHeight; j++)
    {
        convolve[i, j] = new Complex(convolve[i, j].Real * scale, convolve[i, j].Imaginary * scale);
        maxAmp = Math.Max(maxAmp, convolve[i, j].Magnitude);
    }
}

This should then give the more reasonable output:

enter image description here

However that is still not as depicted in your book. At this point we have a 2D circular convolution. To get a 2D linear convolution, you need to make sure the images are both padded to the sum of the dimensions:

Bitmap lena = inputImagePictureBox.Image as Bitmap;
Bitmap mask = paddedMaskPictureBox.Image as Bitmap;

Bitmap paddedLena = ImagePadder.Pad(lena, lena.Width+ mask.Width, lena.Height+ mask.Height);
Bitmap paddedMask = ImagePadder.Pad(mask, lena.Width+ mask.Width, lena.Height+ mask.Height);

Complex[,] cLena = ImageDataConverter.ToComplex(paddedLena);
Complex[,] cPaddedMask = ImageDataConverter.ToComplex(paddedMask);

Complex[,] cConvolved = Convolution.Convolve(cLena, cPaddedMask);

And as you adjust the padding, you may want to change the padding color to black otherwise your padding will in itself introduce a large correlation between the two images:

public class ImagePadder
{
    public static Bitmap Pad(Bitmap maskImage, int newWidth, int newHeight)
    {
        ...
        Grayscale.Fill(resizedImage, Color.Black);

Now you should be getting the following:

enter image description here

We are getting close, but the peak of the autocorrelation result is not in the center, and that's because you FourierShifter.FFTShift in the forward transform but do not call the corresponding FourierShifter.RemoveFFTShift in the inverse transform. If we adjust those (either remove FFTShift in ForwardFFT, or add RemoveFFTShift in InverseFFT), then we finally get:

enter image description here


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