Year 2024

• Analysis of dynamics of a map-based neuron model via Lorenz maps

  Publication

  • P. Bartłomiejczyk
  • F. L. Trujillo
  • J. Signerska-Rynkowska

  - CHAOS - Year 2024

  Modeling nerve cells can facilitate formulating hypotheses about their real behavior and improve understanding of their functioning. In this paper, we study a discrete neuron model introduced by Courbage et al. [Chaos 17, 043109 (2007)], where the originally piecewise linear function defining voltage dynamics is replaced by a cubic polynomial, with an additional parameter responsible for varying the slope. Showing that on a large...

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Year 2023

• Differentiating patients with obstructive sleep apnea from healthy controls based on heart rate-blood pressure coupling quantified by entropy-based indices

  Publication

  • P. Pilarczyk
  • G. Graff
  • J. Amigo
  • K. Tessmer
  • K. Narkiewicz
  • K. Narkiewicz
  • B. Graff

  - CHAOS - Year 2023

  We introduce an entropy-based classification method for pairs of sequences (ECPS) for quantifying mutual dependencies in heart rate and beat-to-beat blood pressure recordings. The purpose of the method is to build a classifier for data in which each item consists of two intertwined data series taken for each subject. The method is based on ordinal patterns and uses entropy-like indices. Machine learning is used to select a subset...

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• Topological-numerical analysis of a two-dimensional discrete neuron model

  Publication

  • P. Pilarczyk
  • J. Signerska-Rynkowska
  • G. Graff

  - CHAOS - Year 2023

  We conduct computer-assisted analysis of a two-dimensional model of a neuron introduced by Chialvo in 1995 [Chaos, Solitons Fractals 5, 461–479]. We apply the method of rigorous analysis of global dynamics based on a set-oriented topological approach, introduced by Arai et al. in 2009 [SIAM J. Appl. Dyn. Syst. 8, 757–789] and improved and expanded afterward. Additionally, we introduce a new algorithm to analyze the return times...

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Year 2020

• Rigorous numerics for critical orbits in the quadratic family

  Publication

  • A. Golmakani
  • C. E. Koudjinan
  • S. Luzzatto
  • P. Pilarczyk

  - CHAOS - Year 2020

  We develop algorithms and techniques to compute rigorous bounds for finite pieces of orbits of the critical points, for intervals of parameter values, in the quadratic family of one-dimensional maps fa(x)=a−x2. We illustrate the effectiveness of our approach by constructing a dynamically defined partition P of the parameter interval Ω=[1.4,2] into almost 4 million subintervals, for each of which we compute to high precision the...

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Year 2016

• Computing algebraic transfer entropy and coupling directions via transcripts

  Publication

  • J. Amigó
  • R. Monetti
  • B. Graff
  • G. Graff

  - CHAOS - Year 2016

  Most random processes studied in nonlinear time series analysis take values on sets endowed with a group structure, e.g., the real and rational numbers, and the integers. This fact allows to associate with each pair of group elements a third element, called their transcript, which is defined as the product of the second element in the pair times the first one. The transfer entropy of two such processes is called algebraic transfer...

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Year 2012

• Combinatorial-topological framework for the analysis of global dynamics

  Publication

  • J. Bush
  • M. Gameiro
  • S. Harker
  • H. Kokubu
  • K. Mischaikow
  • I. Obayashi
  • P. Pilarczyk

  - CHAOS - Year 2012

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