Reconciling /spl nu/-Gap Metric and IQC Based Robust Stability Analysis

Author

Sei Zhen Khong ; Cantoni, Marco

Author_Institution

Dept. of Electr. & Electron. Eng., Univ. of Melbourne, Melbourne, VIC, Australia

Volume

58

Issue

8

fYear

2013

fDate

Aug. 2013

Firstpage

2090

Lastpage

2095

Abstract

This technical note elaborates on the flexibility of an approach that combines ν-gap metric and integral quadratic constraint (IQC) based analysis in the study of uncertain feedback interconnections of distributed-parameter transfer functions. It is established that a standard ν-gap ball robust stability result can be recovered within the blended IQC/ν-gap framework, which only requires the existence of ν-gap continuous paths within the uncertainty set of interest. This is achieved, in part, by showing that sufficiently small ν-gap balls are pathwise connected in the graph topology. A linear fractional characterisation of the ν-gap is a key ingredient. This characterisation is underpinned by a certain J-spectral factorisation, also shown to exist herein.

Keywords

distributed parameter systems; feedback; graph theory; integral equations; robust control; transfer functions; uncertain systems; ν-gap continuous paths; ν-gap metric; J-spectral factorisation; blended IQC-ν-gap framework; distributed parameter transfer functions; graph topology; integral quadratic constraint; linear fractional characterisation; robust stability analysis; standard ν-gap ball robust stability; uncertain feedback interconnections; Algebra; Measurement; Robust stability; Standards; Topology; Transfer functions; Uncertainty; $nu$-gap metric; Distributed-parameter uncertainty; feedback; integral quadratic constraints; robust stability;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2013.2246496

Filename

6459536