invers from covariance of a matrix*matrix'
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given a is a matrix, is the matrix of covariance of (a*a') is always singular?
2 Commenti
the cyclist
il 2 Gen 2012
Can you please clarify? Are you interested in the singularity of cov(a) for arbitrary a, or of cov(b), for b = (a*a')?
eri
il 3 Gen 2012
Risposta accettata
Teja Muppirala
il 4 Gen 2012
cov(a) is ALWAYS singular for ANY square matrix a, because you subtract off the column means. This guarantees that you reduces the rank by one (unless it is already singular) before multiplying the matrix with its transpose.
a = rand(5,5); % a is an arbitrary square matrix
rank(a) %<-- is 5
a2 = bsxfun(@minus, a, mean(a));
rank(a2) %<-- is now 4
cova = a2'*a2/4 %<-- (rank 4) x (rank 4) = rank 4
cov(a) %<-- This is the same as "cova"
rank(cova) %<-- verify this is rank 4
Più risposte (1)
the cyclist
il 2 Gen 2012
a = [1 0; 0 1]
is an example of a matrix for which (a*a') is not singular.
Did you mean non-singular?
8 Commenti
Titus Edelhofer
il 2 Gen 2012
But cov(a) is indeed singular ... The examples I tried so far have a singular covariance but I haven't found a way to prove it's always the case ...
Walter Roberson
il 2 Gen 2012
We uses inverse covariance a lot in our work, and we do not find them to be singular provided that the number of rows is at least the (number of columns plus 1).
Titus Edelhofer
il 2 Gen 2012
Interesting. I was wondering already what sense inverse covariances might have. I tried with quadratic a's only.
eri
il 3 Gen 2012
Walter Roberson
il 3 Gen 2012
a*a' is always square, and if my recollection is correct, cov() of a square matrix is singular.
Titus Edelhofer
il 3 Gen 2012
@Eri: trusting Walters recollection is usually a good bet ;-)
Walter Roberson
il 3 Gen 2012
Just don't ask me _why_ it is singular. I didn't figure out Why, I just made sure square matrices could not get to those routines.
Walter Roberson
il 3 Gen 2012
Experimentally, if you have a matrix A which is M by N, then rank(cov(A)) is min(M-1,N), and thus would be singular for a square matrix.
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il 2 Gen 2012
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