Spatio-temporal phenomena in complex systems with time delays

Serhiy Yanchuk; Giovanni Giacomelli

doi:10.1088/1751-8121/50/10/103001

Spatio-temporal phenomena in complex systems with time delays

Serhiy Yanchuk
, Giovanni Giacomelli

Technical University of Berlin
National Research Council of Italy

Research output: Contribution to journal › Review article › peer-review

Abstract

Real-world systems can be strongly influenced by time delays occurring in self-coupling interactions, due to unavoidable finite signal propagation velocities. When the delays become significantly long, complicated high-dimensional phenomena appear and a simple extension of the methods employed in low-dimensional dynamical systems is not feasible. We review the general theory developed in this case, describing the main destabilization mechanisms, the use of visualization tools, and commenting on the most important and effective dynamical indicators as well as their properties in different regimes. We show how a suitable approach, based on a comparison with spatio-temporal systems, represents a powerful instrument for disclosing the very basic mechanism of long-delay systems. Various examples from different models and a series of recent experiments are reported.

Original language	English
Article number	103001
Journal	Journal of Physics A: Mathematical and Theoretical
Volume	50
Issue number	10
DOIs	https://doi.org/10.1088/1751-8121/50/10/103001
Publication status	Published - 6 Feb 2017
Externally published	Yes

Keywords

long delay
multistability
spatio-temporal dynamics
strong and weak chaos
time delay
wave instability

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10.1088/1751-8121/50/10/103001

Cite this

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title = "Spatio-temporal phenomena in complex systems with time delays",

abstract = "Real-world systems can be strongly influenced by time delays occurring in self-coupling interactions, due to unavoidable finite signal propagation velocities. When the delays become significantly long, complicated high-dimensional phenomena appear and a simple extension of the methods employed in low-dimensional dynamical systems is not feasible. We review the general theory developed in this case, describing the main destabilization mechanisms, the use of visualization tools, and commenting on the most important and effective dynamical indicators as well as their properties in different regimes. We show how a suitable approach, based on a comparison with spatio-temporal systems, represents a powerful instrument for disclosing the very basic mechanism of long-delay systems. Various examples from different models and a series of recent experiments are reported.",

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AU - Yanchuk, Serhiy

AU - Giacomelli, Giovanni

PY - 2017/2/6

Y1 - 2017/2/6

N2 - Real-world systems can be strongly influenced by time delays occurring in self-coupling interactions, due to unavoidable finite signal propagation velocities. When the delays become significantly long, complicated high-dimensional phenomena appear and a simple extension of the methods employed in low-dimensional dynamical systems is not feasible. We review the general theory developed in this case, describing the main destabilization mechanisms, the use of visualization tools, and commenting on the most important and effective dynamical indicators as well as their properties in different regimes. We show how a suitable approach, based on a comparison with spatio-temporal systems, represents a powerful instrument for disclosing the very basic mechanism of long-delay systems. Various examples from different models and a series of recent experiments are reported.

AB - Real-world systems can be strongly influenced by time delays occurring in self-coupling interactions, due to unavoidable finite signal propagation velocities. When the delays become significantly long, complicated high-dimensional phenomena appear and a simple extension of the methods employed in low-dimensional dynamical systems is not feasible. We review the general theory developed in this case, describing the main destabilization mechanisms, the use of visualization tools, and commenting on the most important and effective dynamical indicators as well as their properties in different regimes. We show how a suitable approach, based on a comparison with spatio-temporal systems, represents a powerful instrument for disclosing the very basic mechanism of long-delay systems. Various examples from different models and a series of recent experiments are reported.

KW - long delay

KW - multistability

KW - spatio-temporal dynamics

KW - strong and weak chaos

KW - time delay

KW - wave instability

UR - https://www.scopus.com/pages/publications/85013078269

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DO - 10.1088/1751-8121/50/10/103001

M3 - Review article

AN - SCOPUS:85013078269

SN - 1751-8113

VL - 50

JO - Journal of Physics A: Mathematical and Theoretical

JF - Journal of Physics A: Mathematical and Theoretical

IS - 10

M1 - 103001

ER -

Spatio-temporal phenomena in complex systems with time delays

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Keywords

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