A Research on the Synchronization of Two Novel Chaotic Systems Based on a Nonlinear Active Control Algorithm

Authors

  • I. Ahmad School of Quantitative Sciences, University Utara Malaysia, Alor Setar, Malaysia | College of Applied Sciences, Nizwa, Oman
  • A. Saaban School of Quantitative Sciences, University Utara Malaysia, Alor Setar, Malaysia
  • A. Ibrahin School of Quantitative Sciences, University Utara Malaysia, Alor Setar, Malaysia
  • M. Shahzad College of Applied Sciences, Nizwa, Oman
Volume: 5 | Issue: 1 | Pages: 739-747 | February 2015 | https://doi.org/10.48084/etasr.434
Corresponding author: I. Ahmad

Abstract

The problem of chaos synchronization is to design a coupling between two chaotic systems (master-slave/drive-response systems configuration) such that the chaotic time evaluation becomes ideal and the output of the slave (response) system asymptotically follows the output of the master (drive) system. This paper has addressed the chaos synchronization problem of two chaotic systems using the Nonlinear Control Techniques, based on Lyapunov stability theory. It has been shown that the proposed schemes have outstanding transient performances and that analytically as well as graphically, synchronization is asymptotically globally stable. Suitable feedback controllers are designed to stabilize the closed-loop system at the origin. All simulation results are carried out to corroborate the effectiveness of the proposed methodologies by using Mathematica 9.

Keywords:

Synchronization, Lyapunov Stability Theory, Nonlinear Control, Routh-Hurwitz Criterion

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How to Cite

[1]
I. Ahmad, A. Saaban, A. Ibrahin, and M. Shahzad, “A Research on the Synchronization of Two Novel Chaotic Systems Based on a Nonlinear Active Control Algorithm”, Eng. Technol. Appl. Sci. Res., vol. 5, no. 1, pp. 739–747, Feb. 2015.

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