I am performing weighted least squares regression as described on wiki: WLS
I need to solve this equation: B= (t(X)*W*X)^-1*t(X)*W*y
I use SVD to find: (t(X)*W*X)^-1 and store it in a matrix. In addition I store the matrix H= (t(X)*W*X)^-1*t(X)*W and simply do the following for any new value of y: B= H*y. This way I am able to save the cost of repeating SVD and matrix multiplications as y's change.
W is a diagonal matrix and generally does not change. However sometimes I change one or two elements on the diagonal in the W matrix. In that case I need to do SVD again and recalc the H matrix. This is clearly slow and time consuming.
My question is: If I know what changed in W and nothing changes in X is there a more efficient method to recalculate (t(X)*W*X)^-1?
Or put differently is there an efficient analytic method to find B given that only diagonal elements in W can change by a known amount?