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Dynamical structure underlying inverse stochastic resonance and its implications

Show simple item record Uzuntarla, Muhammet Cressman, John R. Ozer, Mahmut Barreto, Ernest 2015-10-29T16:17:38Z 2015-10-29T16:17:38Z 2013-10-31
dc.identifier.citation Uzuntarla, M., Cressman, J. R., Ozer, M., & Barreto, E. (2013). Dynamical structure underlying inverse stochastic resonance and its implications. Physical Review E, 88(4), 042712. en_US
dc.description.abstract We investigate inverse stochastic resonance (ISR), a recently reported phenomenon in which the spiking activity of a Hodgkin-Huxley model neuron subject to external noise exhibits a pronounced minimum as the noise intensity increases.We clarify the mechanism that underlies ISR and show that its most surprising features are a consequence of the dynamical structure of the model. Furthermore, we show that the ISR effect depends strongly on the procedures used to measure it. Our results are important for the experimentalist who seeks to observe the ISR phenomenon.
dc.description.sponsorship M.U. acknowledges support from Grant No. 13643-49840 from the Turkish Council of Higher Education (YÖK) and the hospitality of the Krasnow Institute for Advanced Study at George Mason University. Publication of this article was funded in part by the George Mason University Libraries Open Access Publishing Fund and Bulent Ecevit University. en_US
dc.language.iso en_US en_US
dc.publisher American Physical Society en_US
dc.rights Attribution 3.0 United States *
dc.rights.uri *
dc.subject inverse stochastic resonance en_US
dc.subject Hodgkin-Huxley model neuron en_US
dc.title Dynamical structure underlying inverse stochastic resonance and its implications en_US
dc.type Article en_US

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