DocumentCode
2827392
Title
Input-to-State Stability and exponential stability for time-delay systems: further results
Author
Yeganefar, Nima ; Pepe, Pierdomenico ; Dambrine, Michel
fYear
2007
fDate
12-14 Dec. 2007
Firstpage
2059
Lastpage
2064
Abstract
The main contribution of this paper is to establish a link between the exponential stability of an unforced system and the input-to-state stability (ISS) via the Liapunov-Krasovskii methodology. It is proved that a system which is (globally, locally) exponentially stable in the unforced case is (globally, locally) input-to-state stable when it is forced by a measurable and locally essentially bounded input, provided that the functional describing the dynamics in the unforced case is (globally, on bounded sets) Lipschitz and the functional describing the dynamics in the forced case satisfies a Lipschitz-like hypothesis with respect to the input. Moreover, a new feedback control law is provided for delay-free linearizable and stabilizable time-delay systems, whose dynamics is described by locally Lipschitz functionals, by which the closed loop system is ISS with respect to disturbances adding to the control law, a typical problem due to actuator errors.
Keywords
asymptotic stability; closed loop systems; delay systems; feedback; nonlinear control systems; Liapunov-Krasovskii methodology; Lipschitz functionals; closed loop system; exponential stability; feedback control; input-to-state stability; time-delay systems; Closed loop systems; Control systems; Delay lines; Error correction; Feedback control; Force measurement; Hydraulic actuators; Linear feedback control systems; Stability; Sufficient conditions; Exponential Stability; Input-to-State Stability; Liapunov-Krasovskii Theorem; Nonlinear Time-Delay Systems;
fLanguage
English
Publisher
ieee
Conference_Titel
Decision and Control, 2007 46th IEEE Conference on
Conference_Location
New Orleans, LA
ISSN
0191-2216
Print_ISBN
978-1-4244-1497-0
Electronic_ISBN
0191-2216
Type
conf
DOI
10.1109/CDC.2007.4434753
Filename
4434753
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