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I want to generate a M*N matrix (M is not equal to N) with following constraints in MATLAB:

Step 1. Set each entry of the matrix to an i.i.d. N(0,1) value.

Step 2. Orthogonalize the M rows of the matrix using the Gram-Schmidt algorithm.

Step 3. Normalize the rows of the matrix to unit length.

I do not know how to implement second step of above.

Any help is appreciated.

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1 Answer 1

up vote 2 down vote accepted

You might want to look at orth:

A = randn( m, n );  % random iid ~N(0,1)
oA = orth( A.' ).'; % orthogonal rows
nA = bsxfun( @rdivide, oA, sqrt( sum( oA.^2, 2 ) ) ); % normalize to unit length
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Thank @Shai, But there is no difference between oA and nA. –  Heaven Jul 28 at 6:28
oA is already normalized - this is the output of orth. Therefore, the third stage is redundant I only put it for methodical reasons. You may ignore it. –  Shai Jul 28 at 6:35
Thank you. It is helpful. –  Heaven Jul 28 at 7:12
Please take a look at mathworks.com/matlabcentral/newsreader/view_thread/48300 Notice qr(A) ~= orth(A). Here math.purdue.edu/~wang838/teaching/GramSchmidt.pdf implements a G-S algo. Note that s(:,1)/norm(s(:,1)) ~= orth(s)(:,1) –  Yvon Jul 29 at 5:54
@ Shai, I think the code works only for square matrices. –  Heaven Aug 7 at 5:13

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