Journal ArticleDOI
Recurrence analysis of slow–fast systems
Praveen Kasthuri,Induja Pavithran,Abin Krishnan,Samadhan A. Pawar,R. I. Sujith,Rohan Gejji,William E. Anderson,Norbert Marwan,Juergen Kurths,Juergen Kurths +9 more
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This study performs a recurrence analysis on simulated signals from paradigmatic model systems as well as signals obtained from experiments, each of which exhibit slow-fast oscillations, to find that slow- fast systems exhibit characteristic patterns along the diagonal lines in the corresponding recurrence plot (RP).Abstract:
Many complex systems exhibit periodic oscillations comprising slow–fast timescales In such slow–fast systems, the slow and fast timescales compete to determine the dynamics In this study, we perform a recurrence analysis on simulated signals from paradigmatic model systems as well as signals obtained from experiments, each of which exhibit slow–fast oscillations We find that slow–fast systems exhibit characteristic patterns along the diagonal lines in the corresponding recurrence plot (RP) We discern that the hairpin trajectories in the phase space lead to the formation of line segments perpendicular to the diagonal line in the RP for a periodic signal Next, we compute the recurrence networks (RNs) of these slow–fast systems and uncover that they contain additional features such as clustering and protrusions on top of the closed-ring structure We show that slow–fast systems and single timescale systems can be distinguished by computing the distance between consecutive state points on the phase space trajectory and the degree of the nodes in the RNs Such a recurrence analysis substantially strengthens our understanding of slow–fast systems, which do not have any accepted functional formsread more
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Suppression of thermoacoustic instability by targeting the hubs of the turbulent networks in a bluff body stabilized combustor
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Coupled interaction between acoustics and unsteady flame dynamics during the transition to thermoacoustic instability in a multi-element rocket combustor
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Coupled interaction between acoustics and unsteady flame dynamics during the transition to thermoacoustic instability in a multi-element rocket combustor
TL;DR: In this paper , the authors study the coupled interaction between the acoustic pressure and the CH* intensity oscillations in a 2D multi-element self-excited model rocket combustor during the transition from a stable state to thermoacoustic instability through intermittency.
Journal ArticleDOI
Trends in recurrence analysis of dynamical systems
Norbert Marwan,Hauke Kraemer +1 more
TL;DR: The last decade has witnessed a number of important and exciting developments that had been achieved for improving recurrence plot-based data analysis and to widen its application potential as discussed by the authors , such as computational improvements, alternative recurrence definitions (event-like, multiscale, heterogeneous, and spatio-temporal recurrences) and ideas for parameter selection.
References
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Impulses and Physiological States in Theoretical Models of Nerve Membrane
TL;DR: Van der Pol's equation for a relaxation oscillator is generalized by the addition of terms to produce a pair of non-linear differential equations with either a stable singular point or a limit cycle, which qualitatively resembles Bonhoeffer's theoretical model for the iron wire model of nerve.
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Nonlinear dynamics and Chaos
TL;DR: The logistic map, a canonical one-dimensional system exhibiting surprisingly complex and aperiodic behavior, is modeled as a function of its chaotic parameter, and the progression through period-doubling bifurcations to the onset of chaos is considered.
Journal ArticleDOI
Simple model of spiking neurons
TL;DR: A model is presented that reproduces spiking and bursting behavior of known types of cortical neurons and combines the biologically plausibility of Hodgkin-Huxley-type dynamics and the computational efficiency of integrate-and-fire neurons.
Journal ArticleDOI
Recurrence plots for the analysis of complex systems
TL;DR: The aim of this work is to provide the readers with the know how for the application of recurrence plot based methods in their own field of research, and detail the analysis of data and indicate possible difficulties and pitfalls.
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