What is one filter matrix equivalent to applying [1 1 1] twice on an image using imfilter with parameter 'full'? Would it still be a 1x3 matrix?


convolution is associative, which means (f*g)*h = f*(g*h). So instead of

r = conv(conv(x, [1,1,1]), [1,1,1])

you can precompute the convolution of the two filters and then apply it to each image only once:

tmp_filter = conv([1,1,1], [1,1,1]);
r1 = conv(x1, tmp_filter)
r2 = conv(x2, tmp_filter)

where the new filter is [1 2 3 2 1], which however is not of the same size of the original filter.

  • Ah gotcha! why 1 2 3 2 1 and not 0 2 3 2 0? Thanks!
    – ishali
    Nov 8 '12 at 10:41
  • well, if you figure it graphically the 1s are when only the extremities overlap, the 2s are when two elements overlap and the 3 is when the functions completely overlap
    – Cavaz
    Nov 8 '12 at 10:54
  • Unless you use the same parameter, which returns an output with the same size of the first parameter, which gives you [2,3,2] (which is equivalent to [0,2,3,2,0]).
    – Cavaz
    Nov 8 '12 at 11:00
  • Note that if you use same when convolving the two kernels, the resulting kernel is not equivalent to the composition of the two kernels. You need to use full when composing kernels. This is true independently of what mode is used to apply the convolutions to the image. Nov 28 '18 at 14:06

The full parameter tells the filter function to return an image of the same size of the filtered image. You can apply the same filter any amount of times, but if you use full every time, the size should not change.

  • Thanks for the response. I was wondering though, instead of convolving twice with [1 1 1], what convolution filter can we use just once?
    – ishali
    Nov 8 '12 at 10:09
  • This is wrong. full causes the output to be larger than the input. same preserves the size. Also, this answer doesn’t address the question. Nov 28 '18 at 14:03

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