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Consider a matrix like

A =  0     1     0     1          
     1     1     0     0          
     0     0     0     0          
     1     1     1     1             

I would like to calculate the average size of each cluster of 1's. I define a cluster as occurring when two or more 1's are near each other, i.e. next to or above/below. Eg, in this matrix there is a cluster of size 3 in the top left hand corner and a cluster of size 4 in the bottom row.

I need a way to extract this information in a non-visual way because I need to do this many times for different A.

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What about diagonally adjacent?Does it count or not? –  Dan May 10 '13 at 8:25

1 Answer 1

up vote 3 down vote accepted

You may want to use bwlabel which isolates the connected components (clusters of 1) in your binary matrix.

A =  [0     1     0     1          
      1     1     0     0          
      0     0     0     0          
      1     1     1     1 ];

[L,n] = bwlabel(A,8)  % # for a 8-pixel stencil 
                    % # (i.e. hor/vert/diag first neighbors)

or

[L,n] = bwlabel(A,4)  % # for 4-pixel stencil 
                      % # (just horizontal & vertical neighbors)


 L =  0     1     0     3
      1     1     0     0
      0     0     0     0
      2     2     2     2

Doing so, you obtain a matrix L which labels the n different connected components.

Then you may want to extract some statistics; for instance you may want to histogram the size of the clusters.

   cluster_size =  hist(L(:),0:n);
   cluster_size = cluster_size(2:end);  % # histogram of component vs. size 
                                        % # (without zeros)    

   hist(cluster_size)                   % # histogram of sizes

enter image description here

which tells you thay you have one cluser of 1 element, one cluster of 3 and one cluster of four.

Finally, if you are looking for the average size of the clusters, you can do

mean(cluster_size)

     2.6667
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Thanks for your response. It works in this instance but it seems to breakdown when the size of the matrix is increased. Would you know why? –  user2209979 May 10 '13 at 8:12
    
@user2209979, is the matrix just composed of ones or zeroes? i.e. is it binary? –  Acorbe May 10 '13 at 8:15
    
It is binary. See below: p = 0.7 A = [zeros(10-(p*10),10);ones(p*10,10)]; % empty network A = reshape(A,100,1); A = A(randperm(100)); A = reshape(A,10,10); [L,n] = bwlabel(A); cluster_size = zeros(1,n); for i = 1:n cluster_ = L == i; cluster_size(i) = sum(cluster_(:)); end hist(cluster_size) mean(cluster_size) –  user2209979 May 10 '13 at 8:16
    
@user2209979, consider the updated answer. (no more for loop and 4 or 8 pixel stencil). Look at the matrix L to see if the connected components are ok with you. I guess that the high p generates large clusters. Try with lower p. –  Acorbe May 10 '13 at 8:24
    
@user2209979, you may want a finer grain histogram: hist(cluster_size,100) –  Acorbe May 10 '13 at 8:25

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