A recursive method for solving unconstrained tangential interpolation problems

Author

Boros, Tibor ; Sayed, Ali H. ; Kailath, Thomas

Author_Institution

ArrayComm. Inc., San Jose, CA, USA

Volume

44

Issue

3

fYear

1999

fDate

3/1/1999 12:00:00 AM

Firstpage

454

Lastpage

470

Abstract

An efficient recursive solution is presented for the one-sided unconstrained tangential interpolation problem. The method relies on the triangular factorization of a certain structured matrix that is implicitly defined by the interpolation data. The recursive procedure admits a physical interpretation in terms of discretized transmission lines. In this framework the generating system is constructed as a cascade of first-order sections. Singular steps occur only when the input data is contradictory, i.e., only when the interpolation problem does not have a solution. Various pivoting schemes can be used to improve numerical accuracy or to impose additional constraints on the interpolants. The algorithm also provides coprime factorizations for all rational interpolants and can be used to solve polynomial interpolation problems such as the general Hermite matrix interpolation problem. A recursive method is proposed to compute a column-reduced generating system that can be used to solve the minimal tangential interpolation problem

Keywords

Hermitian matrices; interpolation; numerical stability; polynomials; rational functions; Hermite matrix; coprime factorization; matrix decomposition; numerical stability; polynomial interpolation; rational functions; rational matrix; recursive method; tangential interpolation; triangular factorization; Circuit theory; Functional analysis; Information systems; Interpolation; Laboratories; Matrix decomposition; Numerical stability; Polynomials; Transmission line matrix methods; Transmission line theory;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/9.751341

Filename

751341