DUMONT, Grégory; HENRY, Jacques

doi:10.1007/s00285-012-0554-5

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DUMONT, Grégory
Institut de Mathématiques de Bordeaux [IMB]

HENRY, Jacques
Institut de Mathématiques de Bordeaux [IMB]
SIgnals and SYstems in PHysiology & Engineering [SISYPHE]

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Journal of Mathematical Biology. 2012-06-20

Springer

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In this paper we study the well-posedness of different models of population of leaky integrate- and- re neurons with a population density approach. The synaptic interaction between neurons is modeled by a potential jump at the reception of a spike. We study populations that are self excitatory or self inhibitory. We distinguish the cases where this interaction is instantaneous from the one where there is a repartition of conduction delays. In the case of a bounded density of delays both excitatory and inhibitory population models are shown to be well-posed. But without conduction delay the solution of the model of self excitatory neurons may blow up. We analyze the di erent behaviours of the model with jumps compared to its di usion approximation.< Réduire

Mots clés en anglais

Population density approach

Neural network

Coupled population

Integrate-and-fire

Nonlocal nonlinear partial differential equation

Well-posedness

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Population density models of integrate-and- fire neurons with jumps: Well-posedness

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