Detail publikace

Synthesis of Memristor – Based Chaotic Circuit

Originální název

Synthesis of Memristor – Based Chaotic Circuit

Anglický název

Synthesis of Memristor – Based Chaotic Circuit

Jazyk

en

Originální abstrakt

A chaotic attractor has been observed with an autonomous circuit that uses only two energystorage elements: a linear passive inductor and a linear passive capacitor. The other element is a nonlinear active memristor. This paper provides a practical implementation of a memristor based chaotic circuit. Part of this paper is also focus on a mathematical analysis memristor based chaotic system including a calculation of an eigenvalues, a largest Lyapunov exponents and a bifurcation diagram. In the second part of this paper are shown simulation and an experimental results obtained by PSpice simulations and a practical measurements on a breadboard.

Anglický abstrakt

A chaotic attractor has been observed with an autonomous circuit that uses only two energystorage elements: a linear passive inductor and a linear passive capacitor. The other element is a nonlinear active memristor. This paper provides a practical implementation of a memristor based chaotic circuit. Part of this paper is also focus on a mathematical analysis memristor based chaotic system including a calculation of an eigenvalues, a largest Lyapunov exponents and a bifurcation diagram. In the second part of this paper are shown simulation and an experimental results obtained by PSpice simulations and a practical measurements on a breadboard.

BibTex


@inproceedings{BUT94923,
  author="Zdeněk {Hruboš}",
  title="Synthesis of Memristor – Based Chaotic Circuit",
  annote="A chaotic attractor has been observed with an autonomous circuit that uses only two energystorage elements: a linear passive inductor and a linear passive capacitor. The other element is a nonlinear active memristor. This paper provides a practical implementation of a memristor based chaotic circuit. Part of this paper is also focus on a mathematical analysis memristor based chaotic system including a calculation of an eigenvalues, a largest Lyapunov exponents and a bifurcation diagram. In the second part of this paper are shown simulation and an experimental results obtained by PSpice simulations and a practical measurements on a breadboard.",
  booktitle="Proceedings of the 35th International Conference on Telecommunications and Signal Processing TSP 2012, 3.-4. 7.2012, Prague, Czech Republic",
  chapter="94923",
  howpublished="electronic, physical medium",
  year="2012",
  month="july",
  pages="416--420",
  type="conference paper"
}