Quantitative characterizations of exponential convergence property of nonlinear discrete dynamical systems

Lisheng Wang; Zongben Xu; Qunfei Zhao

doi:10.1109/TAC.2007.908321

Quantitative characterizations of exponential convergence property of nonlinear discrete dynamical systems

Lisheng Wang
, Zongben Xu
, Qunfei Zhao

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

2 Scopus citations

Abstract

In this technical note, we consider the exponential convergence property of the trajectories of nonlinear discrete dynamical systems with exponential stability. Based on an invariant quantity derived from Lyapunov functions of the systems, the essential and quantitative relationship between exponential convergence property of trajectories and the Lyapunov functions is revealed.

Original language	English
Pages (from-to)	2129-2134
Number of pages	6
Journal	IEEE Transactions on Automatic Control
Volume	52
Issue number	11
DOIs	https://doi.org/10.1109/TAC.2007.908321
State	Published - Nov 2007
Externally published	Yes

Keywords

Asymptotic stability
Convergence
Estimation
Exponential bounds
Global exponential stability
Invariant quantity
Lyapunov functions
Nonlinear discrete dynamical systems
Nonlinear systems
Stability analysis
Stability criteria
Uncertainty

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10.1109/TAC.2007.908321

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title = "Quantitative characterizations of exponential convergence property of nonlinear discrete dynamical systems",

abstract = "In this technical note, we consider the exponential convergence property of the trajectories of nonlinear discrete dynamical systems with exponential stability. Based on an invariant quantity derived from Lyapunov functions of the systems, the essential and quantitative relationship between exponential convergence property of trajectories and the Lyapunov functions is revealed.",

keywords = "Asymptotic stability, Convergence, Estimation, Exponential bounds, Global exponential stability, Invariant quantity, Lyapunov functions, Nonlinear discrete dynamical systems, Nonlinear systems, Stability analysis, Stability criteria, Uncertainty",

author = "Lisheng Wang and Zongben Xu and Qunfei Zhao",

year = "2007",

month = nov,

doi = "10.1109/TAC.2007.908321",

language = "英语",

volume = "52",

pages = "2129--2134",

journal = "IEEE Transactions on Automatic Control",

issn = "0018-9286",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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T1 - Quantitative characterizations of exponential convergence property of nonlinear discrete dynamical systems

AU - Wang, Lisheng

AU - Xu, Zongben

AU - Zhao, Qunfei

PY - 2007/11

Y1 - 2007/11

N2 - In this technical note, we consider the exponential convergence property of the trajectories of nonlinear discrete dynamical systems with exponential stability. Based on an invariant quantity derived from Lyapunov functions of the systems, the essential and quantitative relationship between exponential convergence property of trajectories and the Lyapunov functions is revealed.

AB - In this technical note, we consider the exponential convergence property of the trajectories of nonlinear discrete dynamical systems with exponential stability. Based on an invariant quantity derived from Lyapunov functions of the systems, the essential and quantitative relationship between exponential convergence property of trajectories and the Lyapunov functions is revealed.

KW - Asymptotic stability

KW - Convergence

KW - Estimation

KW - Exponential bounds

KW - Global exponential stability

KW - Invariant quantity

KW - Lyapunov functions

KW - Nonlinear discrete dynamical systems

KW - Nonlinear systems

KW - Stability analysis

KW - Stability criteria

KW - Uncertainty

UR - https://www.scopus.com/pages/publications/38149030830

U2 - 10.1109/TAC.2007.908321

DO - 10.1109/TAC.2007.908321

M3 - 文章

AN - SCOPUS:38149030830

SN - 0018-9286

VL - 52

SP - 2129

EP - 2134

JO - IEEE Transactions on Automatic Control

JF - IEEE Transactions on Automatic Control

IS - 11

ER -

Quantitative characterizations of exponential convergence property of nonlinear discrete dynamical systems

Abstract

Keywords

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