Stability via hybrid-event-time lyapunov function and impulsive stabilization fo r discrete-time delayed switched systems

Bin Liu; David J. Hill

doi:10.1137/110839096

Stability via hybrid-event-time lyapunov function and impulsive stabilization fo r discrete-time delayed switched systems

Bin Liu, David J. Hill

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

46 Citations (Scopus)

Abstract

This paper proposes a new stability analysis m ethod called the hybrid-event-time Lyapunov function (HTLF) approach for discrete-time delayed switched systems (DDSS). Two types of stability notions (GUAS and event-GUAS) are proposed to reflect the effects on stability from events. A basic stability result is derived: a DDSS has event-GUAS if and only if there exists an HTLF which is strictly decreasing and converges to zero. Moreover, some sufficient conditions expressed by HTLF-Razumikhin-type stability theorems are established. The issue of impulsive stabilization for DDSS is studied. It is proved that an unstable DDSS can be stabilized by impulsive control. And the impulsive stabilization to input-to-state stability of DDSS is also achieved.

Original language	English
Pages (from-to)	1338-1365
Number of pages	28
Journal	SIAM Journal on Control and Optimization
Volume	52
Issue number	2
DOIs	https://doi.org/10.1137/110839096
Publication status	Published - 2014
Externally published	Yes

Keywords

Discrete-time delayed switched system
Hybrid system
Hybrid-event-time Lyapunov function
Impulsive stabilization
Razumikhin technique
Stability

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10.1137/110839096

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title = "Stability via hybrid-event-time lyapunov function and impulsive stabilization fo r discrete-time delayed switched systems",

abstract = "This paper proposes a new stability analysis m ethod called the hybrid-event-time Lyapunov function (HTLF) approach for discrete-time delayed switched systems (DDSS). Two types of stability notions (GUAS and event-GUAS) are proposed to reflect the effects on stability from events. A basic stability result is derived: a DDSS has event-GUAS if and only if there exists an HTLF which is strictly decreasing and converges to zero. Moreover, some sufficient conditions expressed by HTLF-Razumikhin-type stability theorems are established. The issue of impulsive stabilization for DDSS is studied. It is proved that an unstable DDSS can be stabilized by impulsive control. And the impulsive stabilization to input-to-state stability of DDSS is also achieved.",

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author = "Bin Liu and Hill, \{David J.\}",

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language = "English",

volume = "52",

pages = "1338--1365",

journal = "SIAM Journal on Control and Optimization",

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publisher = "Society for Industrial \& Applied Mathematics (SIAM)",

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T1 - Stability via hybrid-event-time lyapunov function and impulsive stabilization fo r discrete-time delayed switched systems

AU - Liu, Bin

AU - Hill, David J.

PY - 2014

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N2 - This paper proposes a new stability analysis m ethod called the hybrid-event-time Lyapunov function (HTLF) approach for discrete-time delayed switched systems (DDSS). Two types of stability notions (GUAS and event-GUAS) are proposed to reflect the effects on stability from events. A basic stability result is derived: a DDSS has event-GUAS if and only if there exists an HTLF which is strictly decreasing and converges to zero. Moreover, some sufficient conditions expressed by HTLF-Razumikhin-type stability theorems are established. The issue of impulsive stabilization for DDSS is studied. It is proved that an unstable DDSS can be stabilized by impulsive control. And the impulsive stabilization to input-to-state stability of DDSS is also achieved.

AB - This paper proposes a new stability analysis m ethod called the hybrid-event-time Lyapunov function (HTLF) approach for discrete-time delayed switched systems (DDSS). Two types of stability notions (GUAS and event-GUAS) are proposed to reflect the effects on stability from events. A basic stability result is derived: a DDSS has event-GUAS if and only if there exists an HTLF which is strictly decreasing and converges to zero. Moreover, some sufficient conditions expressed by HTLF-Razumikhin-type stability theorems are established. The issue of impulsive stabilization for DDSS is studied. It is proved that an unstable DDSS can be stabilized by impulsive control. And the impulsive stabilization to input-to-state stability of DDSS is also achieved.

KW - Discrete-time delayed switched system

KW - Hybrid system

KW - Hybrid-event-time Lyapunov function

KW - Impulsive stabilization

KW - Razumikhin technique

KW - Stability

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DO - 10.1137/110839096

M3 - Article

AN - SCOPUS:84902655065

SN - 0363-0129

VL - 52

SP - 1338

EP - 1365

JO - SIAM Journal on Control and Optimization

JF - SIAM Journal on Control and Optimization

IS - 2

ER -

Stability via hybrid-event-time lyapunov function and impulsive stabilization fo r discrete-time delayed switched systems

Abstract

Keywords

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