Chaos
Feedback | Help | Exit
Chaos
   
 
 
 
Previous Article
Detection of seizure rhythmicity by recurrences
Epileptic seizures show a certain degree of rhythmicity, a feature of heuristic and practical interest. In this paper, we introduce a simple model of this type of behavior, and suggest a measure for d...
Next Article
A blind method for the estimation of the Hurst exponent in time series: Theory and application
Nowadays many methods for the estimation of self-similarity (Hurst coefficient, H) in time series are available. Most of them, even if very effective, need some a priori information to be applied. We ...

Unfolding a codimension-two, discontinuous, Andronov–Hopf bifurcation

Chaos 18, 033125 (2008); doi:10.1063/1.2976165

Published 28 August 2008

You are not logged in to this journal. Log in

D. J. W. Simpson and J. D. Meiss
Department of Applied Mathematics, University of Colorado, Boulder, Colorado 80309-0526, USA
We present an unfolding of the codimension-two scenario of the simultaneous occurrence of a discontinuous bifurcation and an Andronov–Hopf bifurcation in a piecewise-smooth, continuous system of autonomous ordinary differential equations in the plane. We find that the Hopf cycle undergoes a grazing bifurcation that may be very shortly followed by a saddle-node bifurcation of the orbit. We derive scaling laws for the bifurcation curves that emanate from the codimension-two bifurcation. ©2008 American Institute of Physics
History: Received 21 April 2008; accepted 6 August 2008; published 28 August 2008
Permalink: http://link.aip.org/link/?CHAOEH/18/033125/1
BUY THIS ARTICLE   (US$28)
Download PDF (267 kB) View Cart

KEYWORDS and PACS

Keywords
PACS

RELATED DATABASES


To view database links for this article,
you need to log in.
To view database links for this article,
you need to log in.

PUBLICATION DATA

ISSN:
1054-1500 (print)   1089-7682 (online)
Publisher:
AIP is a member of CrossRef AIP

REFERENCES (22)
View in Separate Window/Tab
For access to fully linked references, you need to log in. For access to fully linked references, you need to Log in.
  1. R. I. Leine and H. Nijmeijer, Dynamics and Bifurcations of Non-smooth Mechanical Systems, in Lecture Notes in Applied and Computational Mathematics Vol. 18 (Springer, Berlin, 2004).
  2. Applied Nonlinear Dynamics and Chaos of Mechanical Systems with Discontinuities, edited by M. Wiercigroch and B. De Kraker (World Scientific, Singapore, 2000).
  3. Nonlinear Phenomena in Power Electronics, edited by S. Banerjee and G. C. Verghese (IEEE, New York, 2001).
  4. Z. T. Zhusubaliyev and E. Mosekilde, Bifurcations and Chaos in Piecewise-Smooth Dynamical Systems (World Scientific, Singapore, 2003).
  5. C. K. Tse, Complex Behavior of Switching Power Converters (CRC, Boca Raton, 2003).
  6. R. Rosen, Dynamical System Theory in Biology (Wiley-Interscience, New York, 1970).
  7. J. Keener and J. Sneyd, Mathematical Physiology (Springer, New York, 1998).
  8. M. di Bernardo, C. J. Budd, A. R. Champneys, and P. Kowalczyk, Piecewise-smooth Dynamical Systems. Theory and Applications (Springer, New York, 2008).
  9. E. Freire, E. Ponce, and F. Torres, Publicacions Matemátiques 41, 131 (1997).
  10. D. J. W. Simpson and J. D. Meiss, Phys. Lett. A 371, 213 (2007).
  11. E. Freire, E. Ponce, F. Rodrigo, and F. Torres, Int. J. Bifurcation Chaos Appl. Sci. Eng. 8, 2073 (1998).
  12. V. Carmona, E. Freire, E. Ponce, and F. Torres, Int. J. Bifurcation Chaos Appl. Sci. Eng. 15, 2469 (2005).
  13. Z. T. Zhusubaliyev and E. Mosekilde, Physica D 237, 930 (2008).
  14. Z. T. Zhusubaliyev and E. Mosekilde, Phys. Lett. A 372, 2237 (2008).
  15. D. J. W. Simpson, D. K. Kompala, and J. D. Meiss, “Discontinuity induced bifurcations in a model of Saccharomyces cerevisiae,” Math. Biosci. (submitted).
  16. M. di Bernardo, C. J. Budd, and A. R. Champneys, Physica D 160, 222 (2001).
  17. V. Carmona, E. Freire, E. Ponce, and F. Torres, IEEE Trans. Circuits Syst., I: Fundam. Theory Appl. 49, 609 (2002).
  18. H. Dankowicz and A. B. Nordmark, Physica D 136, 280 (2000).
  19. J. Guckenheimer and P. J. Holmes, Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields (Springer, New York, 1986).
  20. Yu. A. Kuznetsov, Elements of Bifurcation Theory, in Appl. Math. Sci. Vol. 112 (Springer, New York, 2004).
  21. P. Glendinning, Stability, Instability and Chaos: An Introduction to the Theory of Nonlinear Differential Equations (Cambridge University Press, New York, 1999).
  22. D. J. W. Simpson, Ph.D. thesis, University of Colorado, in progress.

CITING ARTICLES
For access to citing articles, you need to log in.
For access to citing articles, you need to Log in.


Copyright © American Institute of Physics