PapersNo Access

PARTIAL SYNCHRONIZATION OF NONIDENTICAL CHAOTIC SYSTEMS VIA ADAPTIVE CONTROL, WITH APPLICATIONS TO MODELING COUPLED NONLINEAR SYSTEMS

DAVID J. WAGG

Department of Mechanical Engineering, University of Bristol, Queens Building, University Walk, Bristol BS8 1TR, UK

https://doi.org/10.1142/S0218127402004589Cited by:19 (Source: Crossref)

Abstract

We consider the coupling of two nonidentical dynamical systems using an adaptive feedback linearization controller to achieve partial synchronization between the two systems. In addition we consider the case where an additional feedback signal exists between the two systems, which leads to bidirectional coupling. We demonstrate the stability of the adaptive controller, and use the example of coupling a Chua system with a Lorenz system, both exhibiting chaotic motion, as an example of the coupling technique. A feedback linearization controller is used to show the difference between unidirectional and bidirectional coupling. We observe that the adaptive controller converges to the feedback linearization controller in the steady state for the Chua–Lorenz example. Finally we comment on how this type of partial synchronization technique can be applied to modeling systems of coupled nonlinear subsystems. We show how such modeling can be achieved where the dynamics of one system is known only via experimental time series measurements.

Keywords:

References

P. Ashwin, J. Buescu and I. Stewart, Phys. Lett. A 193, 126 (1994). Crossref, Web of Science, Google Scholar
P. Ashwin, Proc. Inst. Mech. Engin., Part G: J. Aerosp. Engin. 212(3), 183 (1998). Crossref, Web of Science, Google Scholar
S. Boccaletti, A. Farini and F. T. Arecchi, Phys. Rev. E 55(5), 4979 (1997). Crossref, Web of Science, Google Scholar
D. S. Broomhead and G. P. King, Physica D 20(2&3), 217 (1986). Crossref, Web of Science, Google Scholar
H. Dedieu and M. J. Ogorzalek, IEE Trans. Circuits Syst. 44(10), 948 (1997). Crossref, Web of Science, Google Scholar
M. Di Benardo, Int. J. Bifurcation and Chaos 6(3), 557 (1996). Link, Web of Science, Google Scholar
J. Doneaet al., Earthq. Spectra 12(1), 163 (1996). Crossref, Google Scholar
A. L. Fradkov and A. Y. Markov, IEEE Trans. Circuits Syst. 44(10), 905 (1997). Crossref, Google Scholar
M. Hasler, Phys. Rev. E 58(5), 6843 (1998). Crossref, Web of Science, Google Scholar
J. K. John and R. E. Amritkar, Phys. Rev. E 49(6), 4843 (1994). Crossref, Web of Science, Google Scholar
A. K. Kozlov and V. D. Shalfeev, Int. J. Bifurcation and Chaos 6(3), 569 (1996). Link, Web of Science, Google Scholar
Y. D. Landau , Adaptive Control: The Model Reference Approach ( Marcel Dekker , NY , 1979 ) . Google Scholar
A. Maybhate and R. E. Amritkar, Phys. Rev. E 59(1), 284 (1999). Crossref, Web of Science, Google Scholar
R. Ohayon, R. Sampaio and C. Soize, Trans. ASME 64, 292 (1997). Crossref, Web of Science, Google Scholar
C. W. J. Oomenset al., J. Biomech. 26(4&5), 617 (1993). Crossref, Web of Science, Google Scholar
L. M. Pecora and T. L. Carroll, Phys. Rev. Lett. 64(8), 821 (1990). Crossref, Web of Science, Google Scholar
S. Sastry and M. Bodson , Adaptive Control: Stability, Convergence and Robustness ( Prentice-Hall , NJ , 1989 ) . Google Scholar
S. Sastry , Nonlinear Systems: Analysis, Stability and Control ( Springer-Verlag , NY , 1999 ) . Crossref, Google Scholar
D. P. Stoten and M. Di Bernardo, Int. J. Contr. 65(6), 925 (1996). Crossref, Web of Science, Google Scholar
D. J. Wagg and D. P. Stoten, Earthq. Engin. Struct. Dyn. 30, 865 (2001). Crossref, Web of Science, Google Scholar
S. Yanchuk, Y. Maistrenko and E. Mosekilde, Math. Comput. Simulation 54, 491 (2001). Crossref, Web of Science, Google Scholar
S. S. Yang and C. K. Duan, Chaos Solit. Fract. 9(10), 1703 (1998). Crossref, Web of Science, Google Scholar