Publication detail

Equivalent circuit realizations of fourth-order chaotic hamiltonian system

PETRŽELA, J.

Original Title

Equivalent circuit realizations of fourth-order chaotic hamiltonian system

English Title

Equivalent circuit realizations of fourth-order chaotic hamiltonian system

Type

conference paper

Language

en

Original Abstract

This paper describes various but still flow-equivalent analog realizations of fourth-order autonomous deterministic system which exhibits the so-called Hamiltonian dynamics. Design process is described in step-by-step manner and supported by deep experimental measurement. The main motivation of this work is to prove that mathematical model characterized by a volume conserving property can be successfully modeled by the lumped electronic circuits each having off-the-shelf components and structurally stable strange attractor.

English abstract

This paper describes various but still flow-equivalent analog realizations of fourth-order autonomous deterministic system which exhibits the so-called Hamiltonian dynamics. Design process is described in step-by-step manner and supported by deep experimental measurement. The main motivation of this work is to prove that mathematical model characterized by a volume conserving property can be successfully modeled by the lumped electronic circuits each having off-the-shelf components and structurally stable strange attractor.

Keywords

Analog oscillator, circuit synthesis, Hamiltonian dynamics, chaos, strange attractor

Released

19.04.2016

Location

Kosice, Slovakia

ISBN

978-1-5090-1674-7

Book

Proceedings on th International Conference Radioelektronika 2016

Pages from

138

Pages to

143

Pages count

6

URL

BibTex


@inproceedings{BUT124400,
  author="Jiří {Petržela}",
  title="Equivalent circuit realizations of fourth-order chaotic hamiltonian system",
  annote="This paper describes various but still flow-equivalent analog realizations of fourth-order autonomous deterministic system which exhibits the so-called Hamiltonian dynamics. Design process is described in step-by-step manner and supported by deep experimental measurement. The main motivation of this work is to prove that mathematical model characterized by a volume conserving property can be successfully modeled by the lumped electronic circuits each having off-the-shelf components and structurally stable strange attractor.",
  booktitle="Proceedings on th International Conference Radioelektronika 2016",
  chapter="124400",
  doi="10.1109/RADIOELEK.2016.7477353",
  howpublished="electronic, physical medium",
  year="2016",
  month="april",
  pages="138--143",
  type="conference paper"
}