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In linear algebra, we can project a vector v onto a subspace U by taking an orthonormal basis b(1), b(2), b(3), ... b(n) of this subspace and compute the sum of the scalar products of b and v(i) times the vector v(i), i.e. (v,b(i))*b(i), summed over i.

Let's assume that we've stored the basis vectors in a Matrix B such that its rows are the vectors b(1), b(2), ..., b(n).

I've found a way to compute this with a for loop:

proj = 0
for i=1:n
 proj = proj + (B(i,:)*v)*(B(i,:)');

Is there a vectorized version of this procedure?

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1 Answer 1

With matrix multiplications:

proj = B.'*B*v(:);

This gives the same result as your code, as a column vector.

If you need the result as a row vector:

proj = v(:).'*B.'*B;
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What's the difference between v and v(:)? What's the behavior of .'* ? So far, I came across . as 'entrywise'. What's the entrywise transposition? –  Roland Mar 16 at 19:47
v here stands for a vector. It might be a row or a column veector. So I use v(:) to force it becomes a column vector. And then v(:).' is a row vector, because .' means transponse (many people think ' means transpose, but that's conjugate transponse). Lastly, .'* doesn't have a special meaning; it's just .' (transpose) and then * (matrix multiplication) –  Luis Mendo Mar 16 at 19:53

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