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A New Fractional-Order Chaotic System with Different Families of Hidden and Self-Excited Attractors.

Jesús Manuel Muñoz-PachecoErnesto Zambrano-SerranoChristos K VolosSajad JafariJacques KengneKarthikeyan Rajagopal
Published in: Entropy (Basel, Switzerland) (2018)
In this work, a new fractional-order chaotic system with a single parameter and four nonlinearities is introduced. One striking feature is that by varying the system parameter, the fractional-order system generates several complex dynamics: self-excited attractors, hidden attractors, and the coexistence of hidden attractors. In the family of self-excited chaotic attractors, the system has four spiral-saddle-type equilibrium points, or two nonhyperbolic equilibria. Besides, for a certain value of the parameter, a fractional-order no-equilibrium system is obtained. This no-equilibrium system presents a hidden chaotic attractor with a `hurricane'-like shape in the phase space. Multistability is also observed, since a hidden chaotic attractor coexists with a periodic one. The chaos generation in the new fractional-order system is demonstrated by the Lyapunov exponents method and equilibrium stability. Moreover, the complexity of the self-excited and hidden chaotic attractors is analyzed by computing their spectral entropy and Brownian-like motions. Finally, a pseudo-random number generator is designed using the hidden dynamics.
Keyphrases
  • molecular dynamics
  • molecular dynamics simulations
  • magnetic resonance imaging
  • electron transfer
  • neural network