A van der Pol-like complementary chaotic oscillator: Design, physical realizations, dynamics, and physiological data augmentation prospect

This study proposes a van der Pol-like complementary chaotic oscillator circuit. By exploiting components from both semiconductor and vacuum tube technologies, specifically field-effect transistors and triodes, different physical realizations of this oscillator are achieved. The proposed design is a...

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Published inChaos, solitons and fractals Vol. 191; p. 115886
Main Authors Ngamsa Tegnitsap, Joakim Vianney, Tabekoueng Njitacke, Zeric, Barà, Chiara, Fonzin Fozin, Théophile, Fotsin, Hilaire Bertrand, Valdes-Sosa, Pedro Antonio, Yoshimura, Natsue, Minati, Ludovico
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2025
Subjects
Chaos generation
Data augmentation
Electroencephalogram
Oscillator
Transistor
Triode
Van der Pol
Electroencephalogram
Oscillator
Van der Pol
Data augmentation
Transistor
Triode
Chaos generation
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Abstract This study proposes a van der Pol-like complementary chaotic oscillator circuit. By exploiting components from both semiconductor and vacuum tube technologies, specifically field-effect transistors and triodes, different physical realizations of this oscillator are achieved. The proposed design is an asymmetric cross-coupled complementary circuit derived from the classical van der Pol oscillator coupled to a linear circuit. This study explores the unique physical properties of the nonlinear amplifying elements and the resulting dynamic behaviors of the systems, systematically comparing their characteristics from a dynamical perspective and initially investigating their applicability to physiological data augmentation. First, a detailed analysis of the effects of the nonlinearities of each device on the system behavior is performed, revealing that triodes lead to smoother and more stable oscillations, including weak chaos due to torus breakdown, whereas field effect transistors lead to more disordered chaotic oscillations, accompanied by strong hysteresis, coexistence of attractors, and unstable oscillations. Then, for each amplifier device, the corresponding oscillator is driven by representative physiological signals, including electroencephalograms, electrocardiograms, electromyograms, and plethysmograms, thus harnessing the system response to the disturbance and gaining insights into its ability to enhance data, qualitatively through spectrograms and quantitatively by means of information theoretical measurements. This work illustrates the possibility of harnessing the nonidealities of diverse existing physical devices towards nonlinear signal processing. •A van der Pol-like complementary chaotic oscillator was designed and realized using triodes and JFETs transistors.•The qualitative features of the dynamics were largely consistent across the equation and SPICE models and experiments.•Triodes produced stable, smooth oscillation with weak chaos, whereas FETs more disordered activity.•The side-by-side comparison of different circuit realizations illustrated the effect of physical non-idealities.•The possible relevance of circuits of this kind in the data augmentation of physiological signals (EEG, ECG) was exemplified.
AbstractList This study proposes a van der Pol-like complementary chaotic oscillator circuit. By exploiting components from both semiconductor and vacuum tube technologies, specifically field-effect transistors and triodes, different physical realizations of this oscillator are achieved. The proposed design is an asymmetric cross-coupled complementary circuit derived from the classical van der Pol oscillator coupled to a linear circuit. This study explores the unique physical properties of the nonlinear amplifying elements and the resulting dynamic behaviors of the systems, systematically comparing their characteristics from a dynamical perspective and initially investigating their applicability to physiological data augmentation. First, a detailed analysis of the effects of the nonlinearities of each device on the system behavior is performed, revealing that triodes lead to smoother and more stable oscillations, including weak chaos due to torus breakdown, whereas field effect transistors lead to more disordered chaotic oscillations, accompanied by strong hysteresis, coexistence of attractors, and unstable oscillations. Then, for each amplifier device, the corresponding oscillator is driven by representative physiological signals, including electroencephalograms, electrocardiograms, electromyograms, and plethysmograms, thus harnessing the system response to the disturbance and gaining insights into its ability to enhance data, qualitatively through spectrograms and quantitatively by means of information theoretical measurements. This work illustrates the possibility of harnessing the nonidealities of diverse existing physical devices towards nonlinear signal processing. •A van der Pol-like complementary chaotic oscillator was designed and realized using triodes and JFETs transistors.•The qualitative features of the dynamics were largely consistent across the equation and SPICE models and experiments.•Triodes produced stable, smooth oscillation with weak chaos, whereas FETs more disordered activity.•The side-by-side comparison of different circuit realizations illustrated the effect of physical non-idealities.•The possible relevance of circuits of this kind in the data augmentation of physiological signals (EEG, ECG) was exemplified.
ArticleNumber 115886
Author Fonzin Fozin, Théophile
Valdes-Sosa, Pedro Antonio
Ngamsa Tegnitsap, Joakim Vianney
Fotsin, Hilaire Bertrand
Yoshimura, Natsue
Tabekoueng Njitacke, Zeric
Barà, Chiara
Minati, Ludovico
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  givenname: Natsue
  orcidid: 0000-0002-7495-9113
  surname: Yoshimura
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  givenname: Ludovico
  surname: Minati
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  organization: School of Life Science and Technology, University of Electronic Science and Technology of China, 611731 Chengdu, China
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Keywords Electroencephalogram
Oscillator
Van der Pol
Data augmentation
Transistor
Triode
Chaos generation
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Snippet This study proposes a van der Pol-like complementary chaotic oscillator circuit. By exploiting components from both semiconductor and vacuum tube technologies,...
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elsevier
SourceType Index Database
Publisher
StartPage 115886
SubjectTerms Chaos generation
Data augmentation
Electroencephalogram
Oscillator
Transistor
Triode
Van der Pol
Title A van der Pol-like complementary chaotic oscillator: Design, physical realizations, dynamics, and physiological data augmentation prospect
URI https://dx.doi.org/10.1016/j.chaos.2024.115886
Volume 191
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