Neural field models of firing rate activity typically take the form of integral equations with space-dependent axonal delays. Under natural assumptions on the synaptic connectivity we show how one can derive an equivalent partial differential equation (PDE) model that properly treats the axonal delay terms of the integral formulation. Our analysis avoids the so-called long-wavelength approximation that has previously been used to formulate PDE models for neural activity in two spatial dimensions. Direct numerical simulations of this PDE model show instabilities of the homogeneous steady state that are in full agreement with a Turing instability analysis of the original integral model. We discuss the benefits of such a local model and its us...
International audienceNeural field equations describe the activity of neural populations at a mesosc...
In this work, we generalize the dynamics governing activity patterns in a neural field model under a...
In this paper we consider a class of scalar integral equations with a form of space-dependent delay...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
We consider a firing rate model of a neuronal network continuum that incorporates axo-dendritic syna...
We consider a firing rate model of a neuronal network continuum that incorporates axo-dendritic syna...
At one level of abstraction neural tissue can be regarded as a medium for turning local synaptic act...
We consider a firing rate and a spike frequency adaptation (SFA) model of a one-dimensional neuronal...
This work studies the stability of equilibria in spatially extended neuronal ensembles. We first der...
At one level of abstraction neural tissue can be regarded as a medium for turning local synaptic act...
International audienceNeural field equations describe the activity of neural populations at a mesosc...
International audienceNeural field equations describe the activity of neural populations at a mesosc...
In this work, we generalize the dynamics governing activity patterns in a neural field model under a...
In this paper we consider a class of scalar integral equations with a form of space-dependent delay...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
Neural field models of firing rate activity typically take the form of integral equations with space...
We consider a firing rate model of a neuronal network continuum that incorporates axo-dendritic syna...
We consider a firing rate model of a neuronal network continuum that incorporates axo-dendritic syna...
At one level of abstraction neural tissue can be regarded as a medium for turning local synaptic act...
We consider a firing rate and a spike frequency adaptation (SFA) model of a one-dimensional neuronal...
This work studies the stability of equilibria in spatially extended neuronal ensembles. We first der...
At one level of abstraction neural tissue can be regarded as a medium for turning local synaptic act...
International audienceNeural field equations describe the activity of neural populations at a mesosc...
International audienceNeural field equations describe the activity of neural populations at a mesosc...
In this work, we generalize the dynamics governing activity patterns in a neural field model under a...
In this paper we consider a class of scalar integral equations with a form of space-dependent delay...