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I have a 3d matrix (3x3x3), and I need to extract 3d patches (2x2x2) and transform them in vectors.

In 2d, simply:

I=randi(5,3,3);

2d_patches=im2col(I,[2 2],'sliding');

What about 3d?

I=randi(5,3,3,3);

3d_patches= ???

im2col just works in 2d. In 3d I should recombine the vectors 1 and 7, 2 and 8, ... Is there any fast function for this task?

share|improve this question
    
For 2D case, why I=randi(5,3,3) is a 3D array? –  chaohuang Jul 18 '12 at 20:27
    
You can create the 3D version im2col by repeatedly calling the 2D im2col. –  chaohuang Jul 18 '12 at 20:50

3 Answers 3

up vote 2 down vote accepted

I do not believe that there is any built-in way to do this. If you need it to be fast, it should be fairly simple to write your own mex-function in c and call it from Matlab.

Here is my (quick and dirty) solution:

im3col.c:

#include <mex.h>

void mexFunction( int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[] )
{
  const mxArray *I = prhs[0];
  double *indata = mxGetPr(I);
  double *patchSize = mxGetPr(prhs[1]);
  const int *size = mxGetDimensions(I);
  int J = (int)patchSize[0], K = (int)patchSize[1], H = (int)patchSize[2];
  int M = size[0],           N = size[1],           P = size[2];

  int numPatches = (M - J + 1)*(N - K + 1)*(P - H + 1);
  int out_rows = J*K*H, out_cols = numPatches;
  mxArray *out = mxCreateDoubleMatrix( out_rows, out_cols, mxREAL );
  double *outdata = mxGetPr(out);

  int patch = 0;
  for( int h_offset = 0; h_offset < P-H+1; h_offset++ ){
    for( int k_offset = 0; k_offset < N-K+1; k_offset++ ){
      for( int j_offset = 0; j_offset < M-J+1; j_offset++ ){
        int row = 0;
        for( int h = 0; h < H; h++ ){
          for( int k = 0; k < K; k++ ){
            for( int j = 0; j < J; j++ ){
              outdata[patch*out_rows + row] = 
                indata[ (j_offset+j) + (k_offset+k)*M + (h_offset+h)*M*N ];
              ++row;
            }}}
      ++patch;
      }}}
  plhs[0] = out;
}

Compile:

>> mex -O CFLAGS="\$CFLAGS -std=c99 -Wall" im3col.c

Test:

>> A(:,:,1) = [1,4,7;2,5,8;3,6,9]; A(:,:,2) = [10,13,16;11,14,17;12,15,18];
>> B = im3col(A, [2,2,1])

B =

     1     2     4     5    10    11    13    14
     2     3     5     6    11    12    14    15
     4     5     7     8    13    14    16    17
     5     6     8     9    14    15    17    18

>> A(:,:,1),A(:,:,2)

ans =

     1     4     7
     2     5     8
     3     6     9


ans =

    10    13    16
    11    14    17
    12    15    18
share|improve this answer
    
Not so simple if I ask the question. –  no_name Jul 19 '12 at 3:00
    
"Simple" assumes you have some experience writing mex functions... I'll try to edit my answer with some code later today. –  Isaac Jul 19 '12 at 13:36
    
Example provided. Is this what you need? –  Isaac Jul 20 '12 at 3:01
    
Very good! It works! My code in matlab was: [patches3d]=build_patches3d(xi,yi,zi,xp,yp,zp) I=randi(3,xi,yi,zi); num_patch2d=(xi-xp+1)*(yi-yp+1); num_patch3d=(xi-xp+1)*(yi-yp+1)*(zi-zp+1); dim_patch2d=(xp*yp); dim_patch3d=(xp*yp*zp); for count=1:zi tmp_patch2d(:,:,count)=im2col(I(:,:,count),[xp yp],'sliding'); end count=1; for slice_counter=1:(zi-zp+1) for col_patch=1:num_patch2d tmp=[]; for offset=0:(zp-1) tmp=vertcat(tmp,tmp_patch2d(:,col_patch,slice_counter+offset)); end patches3d(:,count)=tmp; count=count+1; end end –  no_name Jul 20 '12 at 14:00
    
Now, I need the inverse function to restore the original 3d matrix given the 3d_patches. I know what happens in 2d. Have you any suggestions? Thank you in advance! –  no_name Jul 20 '12 at 14:06
%One possible way to use matlab to call im2col and reshape twice
%N = [row, col, num_frames]

[x_height, ~, num_frames] = size(N);
patchSize = 16;
patchTemporal = 10;

N = reshape(N, x_height, []);

N = im2col(N, [patchSize, patchSize], 'distinct');

N = reshape(N, [], num_frames);

N = im2col(N, [patchSize^2, patchTemporal], 'distinct');
% N = [patchSize^2 *patchTemporal x numPatches]
share|improve this answer

hi guys what about this solution. To obtain 3x3x3 ROIs from I suggest :

blkSize=3; % should be a odd value like 3,5,7,etc
r=floor(blkSize/2);
k=1;

for sliceNo=(r+1):(size(I,3)-r)

   img= I(:,:,sliceNo-r:sliceNo+r);

   noPix=(size(img,1)-2*r)*(size(img,2)-2*r);
   neiblk=zeros(blkSize^3,noPix);

   for blk=1:blkSize
       neiblk(blkSize^2*(blk-1)+1:blkSize^2*blk,:)=im2col(img(:,:,blk),...
             [blkSize,blkSize],'sliding');            
   end

   ROIs(:,noPix*(k-1)+1:noPix*k)=neiblk;
   k=k+1;
end
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