Why are eigenvector matrices computed by matlab not idempotent

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Marco Sammon
Marco Sammon on 12 Dec 2019
Commented: Marco Sammon on 14 Dec 2019
As far as I know, eigenvector matricies should be idempotent. The eigendecompsotion in matlab however, fails to satisfy this.
Here is an example with my comments:
numel=3;
a = rand(numel);a2=a*a';%gen symmetric matrix
[G,L] = eig(a); %eigendecomposiaion
%i know this is what matlab is solving for
norm(a*G-G*L)%and it does, this quantity is close to zero
%eigenvector matricies should be idempotent
norm(G'*G-eye(numel))
norm(G*G'-eye(numel))
%neither of these are close to zero... that is troubling
%Also, if G was idempotent, these would be zero
norm(a-(G*L*G'))
norm(a-(G'*L*G)) %i checked this too b/c i thought i made a mistake with the transpose
%why should this be true?
%AG=GL -- what matlab solves for
%A=GL*inv(G)
%inv(G)=G' for idempotent matrices, so A=GL*G'
Can anyone explain what is going on here? I have an application where I am trying to orthoganalize a set of equations using an eigen decomposition, and the resulting matrix is not exactly diagonal.
ex. in my example, G'*a*G should be diagonal (it should equal L), but it is not
Cheating, and using the inverse, we get that (G\a)*G is 'almost' diagonal
Thanks,
Marco

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Accepted Answer

Christine Tobler
Christine Tobler on 12 Dec 2019
Edited: Christine Tobler on 12 Dec 2019
Hi Marco,
You seem to be confusing two terms: A matrix M is idempotent if ; it's orthogonal if , which is what you are testing for in your code.
There is an orthogonal basis of eigenvectors for a matrix A if it's symmetric. In your code you're constructing a symmetric matrix, a2, but the matrix a which you're passing to eig is not symmetric.
If A is symmetric, and has two eigenpairs , , with c not equal to c, then x and y must be orthogonal:
Since c and d are not equal, this implies that must be equal to zero, meaning that x and y are orthogonal.
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Christine Tobler
Christine Tobler on 13 Dec 2019
Even with repeated eigenvalues, EIG should return orthogonal eigenvectors for a symmetric input matrix. The problem is that it checks for exact symmetry to decide if this orthogonalization is necessary, and often matrices are just close to symmetrical. You might want to compute
norm(A - A')
it might show some round-off error. If A is close to symmetric, calling eig((A + A')/2) will make sure the symmetric method is used and the eigenvector matrix is orthogonal.

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