PaperNo Access
On the Dynamics and Control of a Fractional Form of the Discrete Double Scroll
https://doi.org/10.1142/S0218127419500780Cited by:27 (Source: Crossref)
Abstract
This paper is concerned with the dynamics and control of the fractional version of the discrete double scroll hyperchaotic map. Using phase portraits and bifurcation diagrams, we show that the general behavior of the proposed map depends on the fractional order. We also present two control schemes for the proposed map, one that adaptively stabilizes the map, and another to achieve the complete synchronization of a pair of maps. Numerical results are presented to illustrate the findings.
Keywords:
References
- [2011] “ On Riemann and Caputo fractional differences,” Comput. Math. Appl. 62, 1602–1611. Web of Science, Google Scholar
- [2010] “ Principles of delta fractional calculus on time scales and inequalities,” Math. Comput. Model. 52, 556–566. Web of Science, Google Scholar
- [2007] “ Initial value problems in discrete fractional calculus,” Proc. Amer. Math. Soc. 137, 981–989. Web of Science, Google Scholar
- [2009] “ Discrete fractional calculus with the nabla operator,” Electron. J. Qual. Th. Diff. Eqs. Spec. Ed. I 3, 1–12. Google Scholar
- [2017] “ Stability analysis of Caputo-like discrete fractional systems,” Commun. Nonlin. Sci. Numer. Simul. 48, 520–530. Web of Science, Google Scholar
- [1967] “ Linear model of dissipation whose Q is almost frequency independent II,” Geophys. J. Int. 13, 529–539. Web of Science, Google Scholar
- [2015] “ On explicit stability condition for a linear fractional difference system,” Fract. Calc. Appl. Anal. 18, 651–672. Web of Science, Google Scholar
- [1986] “ The double scroll family, Parts I and II,” IEEE Trans. Circuits Syst. CAS-33, 1073–1118. Google Scholar
- [2018] “ On stability of fixed points and chaos in fractional systems,” Chaos 28, 023112. Web of Science, Google Scholar
- [2015] Discrete Fractional Calculus (Springer). Google Scholar
- [2016] “ A new application of the fractional logistic map,” Rom. J. Phys. 61, 1172–1179. Web of Science, Google Scholar
- [2017] “ A novel secure image transmission scheme based on synchronization of fractional-order discrete-time hyperchaotic systems,” Nonlin. Dyn. 88, 2473. Web of Science, Google Scholar
- [2016] “ Chaotic synchronization between linearly coupled discrete fractional Hénon maps,” Indian J. Phys. 90, 313–317. Web of Science, Google Scholar
- [2018] “ Novel two-dimensional fractional-order discrete chaotic map and its application to image encryption,” Appl. Comput. Inform. 14, 177–185. Google Scholar
- [2018] “ Fractional two-dimensional discrete chaotic map and its applications to the information security with elliptic-curve public key cryptography,” J. Vibr. Contr. 24, 4824–4979. Web of Science, Google Scholar
- [1989] The Kinematics of Mixing: Stretching, Chaos, and Transport (Cambridge University Press, Cambridge). Google Scholar
- [2015] “ Caputo type fractional difference operator and its application on discrete time scales,” Adv. Diff. Eqs. 2015, 1–15. Google Scholar
- [2017] “ Investigation of chaos in fractional-order generalized hyperchaotic Hénon map,” Int. J. Electron. Commun. 78, 265–273. Web of Science, Google Scholar
- [2013] “ Discrete fractional logistic map and its chaos,” Nonlin. Dyn. 75, 283–287. Web of Science, Google Scholar
- [2014a] “ Discrete chaos in fractional delayed logistic maps,” Nonlin. Dyn. 80, 1697–1703. Web of Science, Google Scholar
- [2014b] “ Chaos synchronization of the discrete fractional logistic map,” Sign. Process. 102, 96–99. Web of Science, Google Scholar
- [2016] “ Chaos synchronization of fractional chaotic maps based on the stability condition,” Physica A 460, 374–383. Web of Science, Google Scholar
- [2017] “ Lyapunov functions for Riemann–Liouville-like discrete fractional equations,” Appl. Math. Comput. 314, 228–236. Web of Science, Google Scholar
- [2009] “ The discrete hyperchaotic double scroll,” Int. J. Bifurcation and Chaos 19, 1023–1027. Link, Web of Science, Google Scholar
