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Regensburg 2004 – wissenschaftliches Programm

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DY: Dynamik und Statistische Physik

DY 42: Long-Range Correlations and Multifractals

DY 42.1: Vortrag

Donnerstag, 11. März 2004, 11:30–11:45, H2

Effects of Membrane Potential Slope and Refractoriness on Spike Synchronization — •Sven Goedeke1, Tom Tetzlaff1,2, Theo Geisel1, and Markus Diesmann1,21MPI für Strömungsforschung und Institut für Nichtlineare Dynamik der Universität Göttingen — 2Neurobiologie und Biophysik, Biologie III, Universität Freiburg

Neuron models based on the instantaneous spiking probability f(t) are a convenient mathematical tool in the study of neural networks. Often f is expressed in terms of a state variable, e.g. the membrane potential u(t). Recent studies [1,2] have applied f(u)-models to spike synchronization in feed-forward networks, emphasizing the dominant role of refractoriness. We show that f(u) is inconsistent with integrate-and-fire dynamics. An expression exhibiting the dependence of f on u and its temporal derivative u is derived. We use a bilinear f(u,u) for an analytical investigation of feed-forward synchronization. The system displays bistability and quantitatively reproduces integrate-and-fire simulation results. The u-dependence is a powerful mechanism of synchronization, taking effect prior to refractoriness. The main function of refractoriness is normalizing the number of spikes.
[1] Gewaltig M-O (2000) Aachen, Germany: Shaker
[2] Kistler WM & Gerstner W (2002) Neural Comput 14:987

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