Coherent sets for nonautonomous dynamical systems

Gary Froyland; Simon Lloyd; Naratip Santitissadeekorn

doi:10.1016/j.physd.2010.03.009

Coherent sets for nonautonomous dynamical systems

Gary Froyland^*, Simon Lloyd, Naratip Santitissadeekorn

^*Corresponding author for this work

University of New South Wales

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

85 Citations (Scopus)

Abstract

We describe a mathematical formalism and numerical algorithms for identifying and tracking slowly mixing objects in nonautonomous dynamical systems. In the autonomous setting, such objects are variously known as almost-invariant sets, metastable sets, persistent patterns, or strange eigenmodes, and have proved to be important in a variety of applications. In this current work, we explain how to extend existing autonomous approaches to the nonautonomous setting. We call the new time-dependent slowly mixing objects coherent sets as they represent regions of phase space that disperse very slowly and remain coherent. The new methods are illustrated via detailed examples in both discrete and continuous time.

Original language	English
Pages (from-to)	1527-1541
Number of pages	15
Journal	Physica D: Nonlinear Phenomena
Volume	239
Issue number	16
DOIs	https://doi.org/10.1016/j.physd.2010.03.009
Publication status	Published - 15 Aug 2010
Externally published	Yes

Keywords

Almost-invariant set
Coherent set
Lyapunov exponent
Metastable set
Nonautonomous dynamical system
Oseledets subspace
Perron-Frobenius operator
Persistent pattern
Strange eigenmode

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10.1016/j.physd.2010.03.009

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abstract = "We describe a mathematical formalism and numerical algorithms for identifying and tracking slowly mixing objects in nonautonomous dynamical systems. In the autonomous setting, such objects are variously known as almost-invariant sets, metastable sets, persistent patterns, or strange eigenmodes, and have proved to be important in a variety of applications. In this current work, we explain how to extend existing autonomous approaches to the nonautonomous setting. We call the new time-dependent slowly mixing objects coherent sets as they represent regions of phase space that disperse very slowly and remain coherent. The new methods are illustrated via detailed examples in both discrete and continuous time.",

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AU - Lloyd, Simon

AU - Santitissadeekorn, Naratip

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N2 - We describe a mathematical formalism and numerical algorithms for identifying and tracking slowly mixing objects in nonautonomous dynamical systems. In the autonomous setting, such objects are variously known as almost-invariant sets, metastable sets, persistent patterns, or strange eigenmodes, and have proved to be important in a variety of applications. In this current work, we explain how to extend existing autonomous approaches to the nonautonomous setting. We call the new time-dependent slowly mixing objects coherent sets as they represent regions of phase space that disperse very slowly and remain coherent. The new methods are illustrated via detailed examples in both discrete and continuous time.

AB - We describe a mathematical formalism and numerical algorithms for identifying and tracking slowly mixing objects in nonautonomous dynamical systems. In the autonomous setting, such objects are variously known as almost-invariant sets, metastable sets, persistent patterns, or strange eigenmodes, and have proved to be important in a variety of applications. In this current work, we explain how to extend existing autonomous approaches to the nonautonomous setting. We call the new time-dependent slowly mixing objects coherent sets as they represent regions of phase space that disperse very slowly and remain coherent. The new methods are illustrated via detailed examples in both discrete and continuous time.

KW - Almost-invariant set

KW - Coherent set

KW - Lyapunov exponent

KW - Metastable set

KW - Nonautonomous dynamical system

KW - Oseledets subspace

KW - Perron-Frobenius operator

KW - Persistent pattern

KW - Strange eigenmode

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M3 - Article

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JO - Physica D: Nonlinear Phenomena

JF - Physica D: Nonlinear Phenomena

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Coherent sets for nonautonomous dynamical systems

Abstract

Keywords

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