The chaotic motion analysis by hardware implementation of Bonhoeffer Van der Pol oscillation model


The Transactions of the Korea Information Processing Society (1994 ~ 2000), Vol. 3, No. 4, pp. 877-882, Jul. 1996
10.3745/KIPSTE.1996.3.4.877,   PDF Download:

Abstract

The effects of periodic and chaotic behaviour in the Bonhoeffer-Van der Pol(BVP) oscillation of the nerve membrane driven by a periodic stimulation current A1 cos wt are investigated through hardware implementation. For hardware implementation of the BVP model, real element values were rescaled with computer simulation results to determine the parameter real value. As the parameter A1 varied in the range 0 to 1.3 the BVP model showed an ordinary and reversed period-doubling cascade and a chaotic state. At the low driving amplitude of A1, the period-doubling showed and at the high driving amplitude of A1 the chaotic state occured. To analyse the BVP model for chaotic behaviour Phase plane, Time series are used to verify thar properties.


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Cite this article
[IEEE Style]
B. Y. Chul, S. S. Moon, Y. W. Yeong, "The chaotic motion analysis by hardware implementation of Bonhoeffer Van der Pol oscillation model," The Transactions of the Korea Information Processing Society (1994 ~ 2000), vol. 3, no. 4, pp. 877-882, 1996. DOI: 10.3745/KIPSTE.1996.3.4.877.

[ACM Style]
Bae Yeong Chul, Shuh Sam Moon, and Yim Wha Yeong. 1996. The chaotic motion analysis by hardware implementation of Bonhoeffer Van der Pol oscillation model. The Transactions of the Korea Information Processing Society (1994 ~ 2000), 3, 4, (1996), 877-882. DOI: 10.3745/KIPSTE.1996.3.4.877.