The sum of stacked matrices

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Shaun VanWeelden
Shaun VanWeelden le 22 Déc 2012
I have a 3-d matrix and I want to find the sum so that every element in the sum matrix is the sum of all the elements in that corresponding i,j location. I know that sounds confusing probably so for example:
>> A=zeros(3,3,3);
>> A(:,:,1)=[1 1 1; 1 0 1; 0 0 0];
>> A(:,:,2)=[1 1 1; 0 0 1; 0 1 0];
>> A(:,:,3)=[1 0 1; 0 1 0; 0 1 0];
Would give me a sum matrix that would be:
[ 3 2 3
1 1 2
0 2 0 ]
I realize I could reshape the matrices into a vector, sum them, and then reshape them back into the matrix, and that I could use for loops, but both of those seem over complicated and I would be doing this with a pretty large amount of data so speed is ideal :)
Thanks in advance!
-Shaun

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Roger Stafford
Roger Stafford le 22 Déc 2012
sum(A,3)
Roger Stafford
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Shaun VanWeelden
Shaun VanWeelden le 22 Déc 2012
Well how bout that, that was sure easy haha
Question though, how does that 3 work? I was looking in the sum documentation and found that it sums along the second argument as the dimension, but I guess I don't understand what this means. Could you help explain it?
And by a similiar note, I tried finding the entire sum of a 2d matrix by doing sum(a2dMat,2) to see if it would give me just one value as the sum of all elements, but that did not work so now I'm a little confused as to how the second arg works in Sum
Roger Stafford
Roger Stafford le 22 Déc 2012
No, it sums along the third dimension, which is what you asked for. That is what the '3' refers to.
To get the entire sum of a two-dimensional array you need to either use two calls to 'sum' or convert the array to one-dimension and sum that:
sum(sum(A))
or
sum(A(:))
Roger Stafford

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