A gap metric perspective of well-posedness for nonlinear feedback interconnections

Author

Sei Zhen Khong ; Cantoni, Marco ; Manton, Jonathan H.

Author_Institution

Dept. of Autom. Control, Lund Univ., Lund, Sweden

fYear

2013

fDate

4-5 Nov. 2013

Firstpage

224

Lastpage

229

Abstract

A differential geometric approach based on the gap metric is taken to examine the uniqueness of solutions of the equations describing a feedback interconnection. It is shown that under sufficiently small perturbations on the Fréchet derivative of a nonlinear plant as measured by the gap metric, the uniqueness property is preserved if solutions exist given exogenous signals. The results developed relate the uniqueness of solutions for a nominal feedback interconnection and that involving the derivative of the plant. Causality of closed-loop operators is also investigated. It is established that if a certain open-loop mapping has an inverse over signals with arbitrary start time (i.e. zero before some initial time), then the closed-loop operator is causal provided the latter is weakly additive.

Keywords

closed loop systems; differential geometry; feedback; nonlinear systems; open loop systems; perturbation techniques; Fréchet derivative; closed-loop operator causality; differential geometric approach; exogenous signal; gap metric perspective; nominal feedback interconnection; nonlinear feedback interconnection; nonlinear plant; open-loop mapping; perturbations; plant derivative; uniqueness property; well-posedness; Additives; Australia; Equations; Linear systems; Measurement; Nonlinear systems; Robust stability; Feedback; causality; gap metric; nonlinear systems; well-posedness;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (AUCC), 2013 3rd Australian

Conference_Location

Fremantle, WA

Print_ISBN

978-1-4799-2497-4

Type

conf

DOI

10.1109/AUCC.2013.6697277

Filename

6697277