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I have Java code that takes a convolution matrix (just a 2D double[][]) and applies it to an image. I'm trying to figure out how to create a matrix that will give a motion blur, given an angle (in degrees) and a magnitude for the blur.

An example matrix for a blur with magnitude = 1 (the middle pixel is blurred by one pixel in each direction), 45 degree motion blur is:

0      0    1/3
0     1/3    0
1/3    0     0

The magnitude determines the size of the matrix (size = 2*magnitude + 1) and a single line of cells is non-zero in the direction of motion.

What I'm having trouble with is the math/code necessary to figure out which cells to have non-zero in the matrix given the angle.

Pseudo (or actual) code would be immensely helpful!

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1 Answer 1

For a motion blur the non-zero elements show all lie along a single line. That's why your example works. [1/n 1/n (ntimes)... 1/n] would blur in the horizontal direction while the transpose would blur vertically. For an arbitrary angle just fill in the non-zero elements that best approximate a line at the angle you want.


For example, you might try to minimize some function of the pixel indices to determine whether that pixel should be non-zero. |(i - 3*j)| < small number, would find pixels along a line of slope 3.

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Yes, I understand that. What I don't know how to do is figure out which cells best approximate a line at the given angle. –  scaevity Mar 22 '13 at 21:10
ahh, sorry. ammended my answer with a heuristic solution. –  bogle Mar 22 '13 at 21:17

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