Two-Parameter Bifurcations of Equilibria in Continuous-Time Dynamical Systems

Abstract. An infinite number of unstable periodic orbits (UPOs) are embedded in a chaotic system which models some complex phenomenon. Several algorithms which extract UPOs numerically from continuous-time chaotic systems have been proposed. In this article the damped Newton-Raphson-Mees algorithm is reviewed, and some important techniques and remarks concerning the practical numerical computations are exemplified by employing the Lorenz system.

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Structural Analysis for the Design of Reliable Controllers and State Estimators for Continuous-Time Dynamical Systems with Uncertainties

Modeling, Design, and Simulation of Systems with Uncertainties ◽

10.1007/978-3-642-15956-5_3 ◽

2011 ◽

pp. 43-68

Author(s):

Andreas Rauh ◽

Harald Aschemann

Keyword(s):

Structural Analysis ◽

Dynamical Systems ◽

Continuous Time ◽

State Estimators

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Incremental stability and contraction via impulsive control for continuous-time dynamical systems

Nonlinear Analysis Hybrid Systems ◽

10.1016/j.nahs.2020.100981 ◽

2021 ◽

Vol 39 ◽

pp. 100981

Author(s):

Bin Liu ◽

Bo Xu ◽

Zhijie Sun

Keyword(s):

Dynamical Systems ◽

Continuous Time ◽

Impulsive Control

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From Dispersion to Laminarity in Dynamical Systems

Zeitschrift für Naturforschung A ◽

10.1515/zna-1994-1225 ◽

1994 ◽

Vol 49 (12) ◽

pp. 1241-1247 ◽

Cited By ~ 1

Author(s):

G. Zumofen ◽

J. Klafter

Keyword(s):

Random Walk ◽

Dynamical Systems ◽

Continuous Time ◽

Chaotic Behavior ◽

Continuous Time Random Walk ◽

Standard Map ◽

One Dimensional ◽

Enhanced Diffusion

Abstract We study transport in dynamical systems characterized by intermittent chaotic behavior with coexistence of dispersive motion due to periods of localization, and of enhanced diffusion due to periods of laminar motion. This transport is discussed within the continuous-time random walk approach which applies to both dispersive and enhanced motions. We analyze the coexistence for the standard map and for a one-dimensional map.

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