Stability of singular time-delay systems in the sense of non-Lyapunov: Classical and modern approach

Stability of singular time-delay systems in the sense of non-Lyapunov: Classical and modern approach

This paper provides sufficient conditions for both practical stability and finite-time stability of linear singular continuous time-delay systems which can be mathematically described as Ex(t)=Aox(t)+A1x(t-t). Considering a finite-time stability concept, new delay independent and delay dependent con...

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Bibliographic Details
Published in:Hemijska industrija Vol. 67; no. 2; pp. 193 - 202
Main Authors: Debeljković Dragutin Lj, Stojanović Sreten B., Aleksendrić Marko S.
Format: Journal Article
Language:English
Published: Association of Chemical Engineers of Serbia 01-01-2013
Subjects:
attractive practical stability
finite-time stability
linear matrix inequality
singular system
time-delay
Online Access:Get full text
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Summary:This paper provides sufficient conditions for both practical stability and finite-time stability of linear singular continuous time-delay systems which can be mathematically described as Ex(t)=Aox(t)+A1x(t-t). Considering a finite-time stability concept, new delay independent and delay dependent conditions have been derived using the approach based on the Lyapunov-like functions and their properties on the subspace of consistent initial conditions. These functions do not need to have the properties of positivity in the whole state space and negative derivatives along the system trajectories. When the practical stability has been analyzed the above mentioned approach was combined and supported by the classical Lyapunov technique to guarantee the attractivity property of the system behavior. Moreover an linear matrix inequality (LMI) approach has been applied in order to get less conservative conditions.
ISSN:0367-598X
DOI:10.2298/HEMIND120403061D