Orthogonal iterations on Structured Pencils
Abstract
We present a class of fast subspace tracking algorithms based on orthogonal iterations for structured matrices/pencils that can be represented as small rank perturbations of unitary matrices. The algorithms rely upon an updated data sparse factorization -- named LFR factorization -- using orthogonal Hessenberg matrices. These new subspace trackers reach a complexity of only O(nk2) operations per time update, where n and k are the size of the matrix and of the small rank perturbation, respectively.
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