Balanced parametrizations of stable SISO all-pass systems in discrete time

B Hanzon; RLM Peeters

doi:10.1007/PL00009869

Balanced parametrizations of stable SISO all-pass systems in discrete time

B Hanzon^*, RLM Peeters

^*Corresponding author for this work

BioMathematics and BioInformatics

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

A balanced canonical form for discrete-time stable SISO all-pass systems is obtained by requiring the realization to be balanced and such that the reachability matrix is upper triangular with positive diagonal entries, in analogy to the continuous-time balanced canonical form of Ober [O1]. It is shown that the resulting balanced canonical form can be parametrized by Schur parameters. The relation with the Schur parameters for stable AR systems is established. Using the structure of the canonical form it is shown that, for the space of stable all-pass systems of order less than or equal to a fixed number n, the topology of pointwise convergence and the topology induced by H(2) coincide. The topological space thus obtained has the structure of a hypersphere. Model reduction procedures based on truncation! which respect the canonical form, are discussed.

Original language	English
Pages (from-to)	240-276
Number of pages	37
Journal	Mathematics of Control Signals and Systems
Volume	13
Issue number	3
DOIs	https://doi.org/10.1007/PL00009869
Publication status	Published - 2000

Keywords

stable all-pass systems
balanced realizations
Schur parameters
stable AR systems
topology
LINEAR-SYSTEMS
MODEL-REDUCTION
CANONICAL FORM
MULTIVARIABLE SYSTEMS
RATIONAL FUNCTIONS
DIGITAL-FILTERS
REALIZATIONS
QUESTIONS

Access to Document

10.1007/PL00009869

Cite this

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title = "Balanced parametrizations of stable SISO all-pass systems in discrete time",

abstract = "A balanced canonical form for discrete-time stable SISO all-pass systems is obtained by requiring the realization to be balanced and such that the reachability matrix is upper triangular with positive diagonal entries, in analogy to the continuous-time balanced canonical form of Ober [O1]. It is shown that the resulting balanced canonical form can be parametrized by Schur parameters. The relation with the Schur parameters for stable AR systems is established. Using the structure of the canonical form it is shown that, for the space of stable all-pass systems of order less than or equal to a fixed number n, the topology of pointwise convergence and the topology induced by H(2) coincide. The topological space thus obtained has the structure of a hypersphere. Model reduction procedures based on truncation! which respect the canonical form, are discussed.",

keywords = "stable all-pass systems, balanced realizations, Schur parameters, stable AR systems, topology, LINEAR-SYSTEMS, MODEL-REDUCTION, CANONICAL FORM, MULTIVARIABLE SYSTEMS, RATIONAL FUNCTIONS, DIGITAL-FILTERS, REALIZATIONS, QUESTIONS",

author = "B Hanzon and RLM Peeters",

year = "2000",

doi = "10.1007/PL00009869",

language = "English",

volume = "13",

pages = "240--276",

journal = "Mathematics of Control Signals and Systems",

issn = "0932-4194",

publisher = "Springer-Verlag London Ltd.",

number = "3",

}

TY - JOUR

T1 - Balanced parametrizations of stable SISO all-pass systems in discrete time

AU - Hanzon, B

AU - Peeters, RLM

PY - 2000

Y1 - 2000

N2 - A balanced canonical form for discrete-time stable SISO all-pass systems is obtained by requiring the realization to be balanced and such that the reachability matrix is upper triangular with positive diagonal entries, in analogy to the continuous-time balanced canonical form of Ober [O1]. It is shown that the resulting balanced canonical form can be parametrized by Schur parameters. The relation with the Schur parameters for stable AR systems is established. Using the structure of the canonical form it is shown that, for the space of stable all-pass systems of order less than or equal to a fixed number n, the topology of pointwise convergence and the topology induced by H(2) coincide. The topological space thus obtained has the structure of a hypersphere. Model reduction procedures based on truncation! which respect the canonical form, are discussed.

AB - A balanced canonical form for discrete-time stable SISO all-pass systems is obtained by requiring the realization to be balanced and such that the reachability matrix is upper triangular with positive diagonal entries, in analogy to the continuous-time balanced canonical form of Ober [O1]. It is shown that the resulting balanced canonical form can be parametrized by Schur parameters. The relation with the Schur parameters for stable AR systems is established. Using the structure of the canonical form it is shown that, for the space of stable all-pass systems of order less than or equal to a fixed number n, the topology of pointwise convergence and the topology induced by H(2) coincide. The topological space thus obtained has the structure of a hypersphere. Model reduction procedures based on truncation! which respect the canonical form, are discussed.

KW - stable all-pass systems

KW - balanced realizations

KW - Schur parameters

KW - stable AR systems

KW - topology

KW - LINEAR-SYSTEMS

KW - MODEL-REDUCTION

KW - CANONICAL FORM

KW - MULTIVARIABLE SYSTEMS

KW - RATIONAL FUNCTIONS

KW - DIGITAL-FILTERS

KW - REALIZATIONS

KW - QUESTIONS

U2 - 10.1007/PL00009869

DO - 10.1007/PL00009869

M3 - Article

SN - 0932-4194

VL - 13

SP - 240

EP - 276

JO - Mathematics of Control Signals and Systems

JF - Mathematics of Control Signals and Systems

IS - 3

ER -