Detail publikace

Modeling of the strange behavior in the selected nonlinear dynamical systems, part I: oscillators

Originální název

Modeling of the strange behavior in the selected nonlinear dynamical systems, part I: oscillators

Anglický název

Modeling of the strange behavior in the selected nonlinear dynamical systems, part I: oscillators

Jazyk

en

Originální abstrakt

This part of the monograph is focused on the design methodology how to create an oscilator suitable for the modeling of the nonlinear dynamics. Upcoming chapters provide a general overview on the ideas behind the integrator based synthesis as well as classical circuit synthesis. Several examples of the autonomous deterministic dynamical systems with possible chaotic behavior implemented as an electronic circuits (chaotic oscillators) are also given. Each configuration is experimentally verified by a gallery of the oscilloscope screenshots as well as by a comparison of these pictures with numerical integration using Mathcad and build-in fourth-order Runge-Kutta method. It is worth nothing that Pspice circuit simulator give us the same results.

Anglický abstrakt

This part of the monograph is focused on the design methodology how to create an oscilator suitable for the modeling of the nonlinear dynamics. Upcoming chapters provide a general overview on the ideas behind the integrator based synthesis as well as classical circuit synthesis. Several examples of the autonomous deterministic dynamical systems with possible chaotic behavior implemented as an electronic circuits (chaotic oscillators) are also given. Each configuration is experimentally verified by a gallery of the oscilloscope screenshots as well as by a comparison of these pictures with numerical integration using Mathcad and build-in fourth-order Runge-Kutta method. It is worth nothing that Pspice circuit simulator give us the same results.

BibTex


@misc{BUT61860,
  author="Jiří {Petržela}",
  title="Modeling of the strange behavior in the selected nonlinear dynamical systems, part I: oscillators",
  annote="This part of the monograph is focused on the design methodology how to create an oscilator suitable for the modeling of the nonlinear dynamics. Upcoming chapters provide a general overview on the ideas behind the integrator based synthesis as well as classical circuit synthesis. Several examples of the autonomous deterministic dynamical systems with possible chaotic behavior implemented as an electronic circuits (chaotic oscillators) are also given. Each configuration is experimentally verified by a gallery of the oscilloscope screenshots as well as by a comparison of these pictures with numerical integration using Mathcad and build-in fourth-order Runge-Kutta method. It is worth nothing that Pspice circuit simulator give us the same results.",
  address="FEKT VUT",
  chapter="61860",
  edition="VUTIUM",
  institution="FEKT VUT",
  year="2008",
  month="november",
  pages="1--30",
  publisher="FEKT VUT",
  type="habilitation thesis principal points"
}