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I have a Nx1 vector of values. What I would like to do is create a NxN matrix where each value represents the difference between the ith and jth value - sort of like a large correlation matrix. I've done with this with a loop but I'm looking for a more elegant way to approach using MATLAB's vectorization capabilities as this vector may get quite large.

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3 Answers 3

up vote 8 down vote accepted

what about

    diff__ = bsxfun(@minus,repmat(A,N,1),A');

which can be definitely improved by doing

    diff__ = bsxfun(@minus,A,A');

?

A little performance check:

   N = 1000;
   v = rand(N,1);

   tic
   diff__ = bsxfun(@minus,repmat(v,N,1),v');
   toc

   tic
   diff__ = bsxfun(@minus,v,v');
   toc

result

  Elapsed time is 105.343344 seconds.
  Elapsed time is 1.124946 seconds.

(Tim's data check:

diff__ =

 0     2     6     4
-2     0     4     2
-6    -4     0    -2
-4    -2     2     0

).

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Faster than Tim's method testing with a 1000 element vector. –  strimp099 Nov 16 '12 at 21:25

meshgrid can generate matrices fit for this purpose. Obtain the difference matrix with

meshgrid(v) - meshgrid(v)'

Example:

>> v = [1 3 7 5]

v =

     1     3     7     5

>> meshgrid(v)

ans =

     1     3     7     5
     1     3     7     5
     1     3     7     5
     1     3     7     5

>> meshgrid(v) - meshgrid(v)'

ans =

     0     2     6     4
    -2     0     4     2
    -6    -4     0    -2
    -4    -2     2     0

>> 
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Nice answers given already. But to join in the fun, here is another way (using Tim data)

v=[1 3 7 5];
 cell2mat(arrayfun(@(i) (v(i)-v)',1:size(v,2), 'UniformOutput',false))

ans =

 0     2     6     4
-2     0     4     2
-6    -4     0    -2
-4    -2     2     0
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