GENERALIZED FIEDLER PENCILS WITH REPETITION FOR RATIONAL MATRIX FUNCTIONS
Abstract
We introduce generalized Fiedler pencil with repetition(GFPR) for an nn rational
matrix function G() relative to a realization of G(): We show that a GFPR is a linearization of
G() when the realization of G() is minimal and describe recovery of eigenvectors of G() from
those of the GFPRs. In fact, we show that a GFPR allows operation-free recovery of eigenvectors of
G(): We describe construction of a symmetric GFPR when G() is symmetric. We also construct
GFPR for the Rosenbrock system matrix S() associated with an linear time-invariant (LTI) state-
space system and show that the GFPR are Rosenbrock linearizations of S(). We also describe
recovery of eigenvectors of S() from those of the GFPR for S(). Finally, We analyze operation-
free Symmetric/self-adjoint structure Fiedler pencils of system matrix S() and rational matrix G().
We show that structure pencils are linearizations of G().
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