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The formula I have to translate to Octave/Matlab goes something like this:

\sum (v_i - m) (v_i - m)^T

I have a matrix, and I need to take each row, subtract m from it and then multiply it with its own transpose. I wrote the inner part as a function:

function w = str(v, m)
    y = v - m
    w = y * transpose(y)

My matrix is like this

xx = [1 2 3 4 5; 1 2 3 4 5; 1 2 3 4 5]

Now I have no idea how to apply this function to each row in a matrix and then sum them up to a new matrix. Maybe someone can help me here.

EDIT: The result is not the dot product. I'm looking for v * v^T, which has a matrix as result!

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If v is a row vector, then v * v^T is definitely a scalar not a matrix and it's dot product! – jkshah Nov 10 '13 at 9:29
up vote 1 down vote accepted

Probably you need this

X = bsxfun( @minus, A, m );
Y = X'* X;
share|improve this answer

Suppose the matrix is A, then the solution is

    total = sum(sum((A-m).*(A-m),2));

A.*A is an element wise multiplication, hence sum(A.*A,2) returns a column vector, with each element being the self dot product of each row in A.

If m is a vector then, it is slightly more complicated.

    total = sum(sum((A-repmat(m,p,1)).*(A-repmat(m,p,1)),2));


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In the end, I wrote this:

function w = str(v, m)
    y = v - m;
    w = y' * y;

y = zeros(5,5);
for i=1:12
    y = y + str(A(i,:), m);

Surely not the most elegant way to do this, but it seems to work.

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w = y' * y; is not the same as w = y * y'. Your question and answer differ big time! You meant column when you said row ?! weird! – jkshah Nov 10 '13 at 9:37
check my ans if you really need this. – jkshah Nov 10 '13 at 9:42

You can subtract the mean using bsxfun

>> v_m = bsxfun( @minus, v, m );

For the sum of outer product of all vectors you can use bsxfun again

>> op = bsxfun( @times, permute( v, [3 1 2]), permute( v, [1 3 2] ) );
>> op = sum( op, 3 );
share|improve this answer
Sorry, this isn't at all what I want... – Lambda Dusk Nov 10 '13 at 9:18
@LambdaDusk - can you be more specific? I made an edit to my answer - I hope it fits your requirements now. BTW is m a row vector or a scalar? – Shai Nov 10 '13 at 9:22
m is a vector, and I'm not looking for a dot product, I need to multiply each row of the matrix A with its transposed self - resulting in a set of matrices. – Lambda Dusk Nov 10 '13 at 9:25

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