Summing within an array to change the size
Show older comments
I have an array that has dimensions of 111x46x2. I want to sum the values in the first 3x3 block to become the first value of the next matrix repeating this until the last column is summed together. The dimensions of the new matrix should be 37x16x2.
I could make the dimensions of the original matrix 111x48x2 if that makes the calculations easier and more efficient. The 9x9 blocks will have values only in certain locations such as [ 0 0 #; # 0 0; 0 # 0]; and the last column will have values in each row.
4 Comments
Sean de Wolski
on 27 Aug 2012
46 or 48?
Matthew Vincent
on 27 Aug 2012
Sean de Wolski
on 27 Aug 2012
blockproc below is smart enough to handle either of those scenarios :)
Walter Roberson
on 29 Aug 2012
Please read the guide to tags and retag this Question; see http://www.mathworks.co.uk/matlabcentral/answers/43073-a-guide-to-tags
Accepted Answer
Sean de Wolski
on 27 Aug 2012
Edited: Sean de Wolski
on 27 Aug 2012
If you have the Image Processing Toolbox:
x = rand(111,46,2);
y = blockproc(x,[3 3],@(s)sum(sum(s.data,1),2));
Or if you don't:
z = convn(x,ones(3),'valid');
z = z(1:3:end,1:3:end,:); %may need to crop differently depending on last edges
1 Comment
Matthew Vincent
on 27 Aug 2012
More Answers (2)
Matt Fig
on 27 Aug 2012
Here is one way to do it:
A = magic(6);
cellfun(@(x) sum(x(:)),mat2cell(A,2*ones(1,3),2*ones(1,3)))
4 Comments
Matthew Vincent
on 27 Aug 2012
Sean de Wolski
on 27 Aug 2012
Edited: Sean de Wolski
on 27 Aug 2012
mat2cell is painfully slow for anything at all large. I recommend avoiding it:
x = rand(999,999,3);
tic,mat2cell(x,ones(1,333)*3,ones(1,333)*3,3);toc
Elapsed time is 7.549038 seconds.
Matt Fig
on 27 Aug 2012
What do you mean 'array input'? A is an array....
Matt Fig
on 27 Aug 2012
MAT2CELL is slow for large inputs, indeed. What are you MathWorkers doing with your time?! ;-)
A Matlab version:
x = rand(111, 46, 2);
S = size(X);
M = S(1) - mod(S(1), 3);
N = S(2) - mod(S(2), 3);
% Cut and reshape input such that the 1st and 3rd dimension have the lengths V
% and W:
XM = reshape(X(1:M, 1:N, :), 3, M / 3, 3, N / 3, []);
Y = squeeze(sum(sum(XM, 1), 3));
2 Comments
Andrei Bobrov
on 29 Aug 2012
with two reshape
s = size(x);
t = mod(-s(1:2),[3 3]);
xx = [x zeros(s(1),t(2),s(3))];
xx = [xx; zeros(t(1),s(2)+t(2),s(3))];
s2 = s + [t, 0];
y = reshape(sum(sum(reshape(xx,3, s2(1)/3, 3,[]),3)),s2(1)/3,s2(2)/3,[]);
Jan
on 29 Aug 2012
Difference between Andrei's and my solution:
- RESHAPE instead of SQUEEZE (which calls RESHAPE internally)
- Andrei appends zeros, I remove the not matching lines on the bottom.
Categories
Find more on Matrix Indexing in Help Center and File Exchange
on 27 Aug 2012
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
