Detail publikace

Nonlinear oscillator implementation using CFOAs

Originální název

Nonlinear oscillator implementation using CFOAs

Anglický název

Nonlinear oscillator implementation using CFOAs

Jazyk

en

Originální abstrakt

This paper shows an electronic circuit which can be used as a generator of the chaotic waveforms. The mathematical model associated with this oscillator can be considered as a single third-order differential equation. Individual state variables can be interpreted as a position, velocity and acceleration and thus have a direct connection to a real physical system. The regions of chaotic solution are briefly discussed by showing a two-dimensional map of the largest Lyapunov exponent. The experimental verifi-cation of the final analog oscillator is also presented via the oscilloscope screenshots.

Anglický abstrakt

This paper shows an electronic circuit which can be used as a generator of the chaotic waveforms. The mathematical model associated with this oscillator can be considered as a single third-order differential equation. Individual state variables can be interpreted as a position, velocity and acceleration and thus have a direct connection to a real physical system. The regions of chaotic solution are briefly discussed by showing a two-dimensional map of the largest Lyapunov exponent. The experimental verifi-cation of the final analog oscillator is also presented via the oscilloscope screenshots.

BibTex


@inproceedings{BUT19940,
  author="Jiří {Petržela} and Tomáš {Langer}",
  title="Nonlinear oscillator implementation using CFOAs",
  annote="This paper shows an electronic circuit which can be used as a generator of the chaotic waveforms. The mathematical model associated with this oscillator can be considered as a single third-order differential equation. Individual state variables can be interpreted as a position, velocity and acceleration and thus have a direct connection to a real physical system. The regions of chaotic solution are briefly discussed by showing a two-dimensional map of the largest Lyapunov exponent. The experimental verifi-cation of the final analog oscillator is also presented via the oscilloscope screenshots.",
  address="IEEE Slovenian Section, ISSN 1581-4572",
  booktitle="15th International Elektrotechnical and Computer Science Conference ERK 2006",
  chapter="19940",
  institution="IEEE Slovenian Section, ISSN 1581-4572",
  journal="Proceedings of the 15th International Electrotechnical and Computer Science Conference ERK 2006",
  number="1",
  year="2006",
  month="september",
  pages="53",
  publisher="IEEE Slovenian Section, ISSN 1581-4572",
  type="conference paper"
}