In this article we study the convergence of a stochastic particle system that interacts through threshold hitting times towards a novel equation of McKean-Vlasov type. The particle system is motivated by an original model for the behavior of a network of neurons, in which a classical noisy integrate-and-fire model is coupled with a cable equation to describe the dendritic structure of each neuron
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
Version 4: shortened versionInternational audienceWe here investigate the well-posedness of a networ...
We analyze a master equation formulation of stochastic neurodynamics for a network of synaptically c...
pp 3884-3916International audienceIn this article we study the convergence of a stochastic particle ...
International audienceWe consider the stochastic system of interacting neurons introduced in De Masi...
International audienceWe consider the stochastic system of interacting neurons introduced in De Masi...
International audienceWe consider the stochastic system of interacting neurons introduced in De Masi...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
International audienceWe discuss the construction and approximation of solutions to a nonlinear McKe...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
International audienceWe discuss the construction and approximation of solutions to a nonlinear McKe...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
Version 4: shortened versionInternational audienceWe here investigate the well-posedness of a networ...
We analyze a master equation formulation of stochastic neurodynamics for a network of synaptically c...
pp 3884-3916International audienceIn this article we study the convergence of a stochastic particle ...
International audienceWe consider the stochastic system of interacting neurons introduced in De Masi...
International audienceWe consider the stochastic system of interacting neurons introduced in De Masi...
International audienceWe consider the stochastic system of interacting neurons introduced in De Masi...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
International audienceWe discuss the construction and approximation of solutions to a nonlinear McKe...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
International audienceWe discuss the construction and approximation of solutions to a nonlinear McKe...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
We consider the stochastic system of interacting neurons introduced in De Masi et al. (2015) and in ...
Version 4: shortened versionInternational audienceWe here investigate the well-posedness of a networ...
We analyze a master equation formulation of stochastic neurodynamics for a network of synaptically c...
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