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Given a square matrix of say size 400x400, how would I go about splitting this into constituent sub-matrices of 20x20 using a for-loop? I can't even think where to begin!

I imagine I want something like :

[x,y] = size(matrix)

for i = 1:20:x
    for j = 1:20:y

but I'm unsure how I would proceed. Thoughts?

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Though you have got the answer, just for curiosity, what made you write number 30 if you are going to split the matrix into 20x20 sub-matrices –  Parag S. Chandakkar Dec 2 '13 at 19:39
mat2cell is good for breaking up a matrix in to sub-matrices. KlausCPH's answer is a good example. See also here. –  chappjc Dec 2 '13 at 21:05
@Parag Just a mistake haha! –  user3058703 Dec 3 '13 at 16:31

4 Answers 4

Well, I know that the poster explicitly asked for a for loop, and Jeff Mather's answer provided exactly that.

But still I got curious whether it is possible to decompose a matrix into tiles (sub-matrices) of a given size without a loop. In case someone else is curious, too, here's what I have come up with:

T = permute(reshape(permute(reshape(A, size(A, 1), n, []), [2 1 3]), n, m, []), [2 1 3])

transforms a two-dimensional array A into a three-dimensional array T, where each 2d slice T(:, :, i) is one of the tiles of size m x n. The third index enumerates the tiles in standard Matlab linearized order, tile rows first.

The variant

T = permute(reshape(A, size(A, 1), n, []), [2 1 3]);
T = permute(reshape(T, n, m, [], size(T, 3)), [2 1 3 4]);

makes T a four-dimensional array where T(:, :, i, j) gives the 2d slice with tile indices i, j.

Coming up with these expressions feels a bit like solving a sliding puzzle. ;-)

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If you have the Image Processing Toolbox, you can use blockproc to apply a function handle to subsections of an image/matrix iteratively. For example: blockproc(M, [20 20], @myAwesomeFunction) –  Jeff Mather Dec 2 '13 at 20:52
Sure. But where's the fun in that? ;-) –  A. Donda Dec 2 '13 at 20:58
+1 I was curious! In fact, I tried for a few minutes, and quit :-) –  Luis Mendo Dec 2 '13 at 22:14
@LuisMendo: Great minds wonder alike. ;-) –  A. Donda Dec 2 '13 at 23:59
@A.Donda I used your cutting up of the matrix in this answer. Although I still don't see exactly how it works... :-) –  Luis Mendo Dec 4 '13 at 1:20

You seem really close. Just using the problem as you described it (400-by-400, divided into 20-by-20 chunks), wouldn't this do what you want?

[x,y] = size(M);

for i = 1:20:x
  for j = 1:20:y
    tmp = M(i:(i+19), j:(j+19));
    % Do something interesting with "tmp" here.
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Thanks, this was very helpful. And thanks everybody else for the other answers but was looking to use a for loop in this particular case. Some very interesting ideas being discussed! –  user3058703 Dec 3 '13 at 16:32
@user3058703, if this answer does what you were looking for, you should accept it (click the outlined check mark so it becomes green). –  A. Donda Dec 4 '13 at 11:39

I'm sorry that my answer does not use a for loop either, but this would also do the trick:

cellOf20x20matrices = mat2cell(matrix, ones(1,20)*20, ones(1,20)*20)

You can then access the individual cells like:


where i,j is the submatrix to fetch (and a,b is the indexing into that matrix if needed)


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+1 mat2cell, good idea! –  Luis Mendo Dec 2 '13 at 23:06

May be this Ok :

clear all;clc % a=[1 2 3 4;5 6 7 8;9 10 11 12;13 14 15 16] a=imread('cameraman.tif'); [n m]=size(a); % x=n*m; % y=x/4; z=m/2; b=(a(1:z,1:z)) c=(a(1:z,z+1:2*z)) d=(a(z+1:2*z,1:z)) e=(a(z+1:2*z,z+1:2*z)) figure imshow(b) figure imshow(c) figure imshow(d) figure imshow(e) all=[b c;d e] figure;imshow(all)

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Could you please describe how this code answers the question? –  rfornal Jan 12 at 14:39
Tis code will split the matrix into 4 equal matrices . –  Ali A. Jalil Jan 18 at 13:16

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