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Literature DB >> 16090066

Spatial coherence resonance in excitable media.

Abstract

We study the phenomenon of spatial coherence resonance in a two-dimensional model of excitable media with FitzHugh-Nagumo local dynamics. In particular, we show that there exists an optimal level of additive noise for which an inherent spatial scale of the excitable media is best pronounced. We argue that the observed phenomenon occurs due to the existence of a noise robust excursion time that is characteristic for the local dynamics whereby the diffusion constant, representing the rate of diffusive spread, determines the actual resonant spatial frequency. Additionally, biological implications of presented results in the field of neuroscience are outlined.

Year: 2005 PMID： 16090066 DOI： 10.1103/PhysRevE.72.016207

Source DB: PubMed Journal: Phys Rev E Stat Nonlin Soft Matter Phys ISSN： 1539-3755

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Cited

17 in total

Spatial coherence resonance in excitable media.

1. Neurodynamics of up and down transitions in a single neuron.

2. Firing synchronization and temporal order in noisy neuronal networks.

3. Crossing the quasi-threshold manifold of a noise-driven excitable system.

4. Dynamic behavior analysis of fractional-order Hindmarsh-Rose neuronal model.

5. Noise induced complexity: patterns and collective phenomena in a small-world neuronal network.

Review 6. Cyclic dominance in evolutionary games: a review.

7. Noise-induced spatiotemporal patterns in Hodgkin-Huxley neuronal network.

8. A bio-inspired methodology of identifying influential nodes in complex networks.

9. Noise amplification in human tumor suppression following gamma irradiation.

10. Scaling effects and spatio-temporal multilevel dynamics in epileptic seizures.