We present a novel dynamic neural field model consisting of two coupled fields of Amari-type which supports the existence of localized activity patterns or “bumps” with a continuum of amplitudes. Bump solutions have been used in the past to model spatial working memory. We apply the model to explain input-specific persistent activity that increases monotonically with the time integral of the input (parametric working memory). In numerical simulations of a multi-item memory task, we show that the model robustly memorizes the strength and/or duration of inputs. Moreover, and important for adaptive behavior in dynamic environments, the memory strength can be changed at any time by new behaviorally relevant information. A direct comparison of m...
International audienceIn the field of computational neuroscience, we develop distributed models of t...
International audiencePrimates display a remarkable ability to adapt to novel situations. Determinin...
Behavior often requires remembering continuously structured information, e.g. positions in the visua...
We present a novel dynamic neural field model consisting of two coupled fields of Amari-type which s...
AbstractThe concept of bell-shaped persistent neural activity represents a cornerstone of the theory...
A neural correlate of parametric working memory is a stimulus-specific rise in neuron firing rate th...
Working memory, the ability to temporarily retain information which will be used to guidesubsequent ...
A parametric working memory network stores the information of an analog stimulus in the form of pers...
In this paper we describe a neural field model which explains how a population of cortical neurons m...
International audienceAs introduced by Amari, dynamic neural fields (DNF) are a mathematical formali...
Within cognitive neuroscience, computational models are designed to provide insights into the organi...
International audienceThis paper presents a one dimensional dynamic neural field that can continuous...
We discuss various network mechanisms capable of making spatial working memory more robust to noise ...
Working memory is a core component of critical cognitive functions such as planning and decision-mak...
Competing accounts propose that working memory (WM) is subserved either by persistent activity in si...
International audienceIn the field of computational neuroscience, we develop distributed models of t...
International audiencePrimates display a remarkable ability to adapt to novel situations. Determinin...
Behavior often requires remembering continuously structured information, e.g. positions in the visua...
We present a novel dynamic neural field model consisting of two coupled fields of Amari-type which s...
AbstractThe concept of bell-shaped persistent neural activity represents a cornerstone of the theory...
A neural correlate of parametric working memory is a stimulus-specific rise in neuron firing rate th...
Working memory, the ability to temporarily retain information which will be used to guidesubsequent ...
A parametric working memory network stores the information of an analog stimulus in the form of pers...
In this paper we describe a neural field model which explains how a population of cortical neurons m...
International audienceAs introduced by Amari, dynamic neural fields (DNF) are a mathematical formali...
Within cognitive neuroscience, computational models are designed to provide insights into the organi...
International audienceThis paper presents a one dimensional dynamic neural field that can continuous...
We discuss various network mechanisms capable of making spatial working memory more robust to noise ...
Working memory is a core component of critical cognitive functions such as planning and decision-mak...
Competing accounts propose that working memory (WM) is subserved either by persistent activity in si...
International audienceIn the field of computational neuroscience, we develop distributed models of t...
International audiencePrimates display a remarkable ability to adapt to novel situations. Determinin...
Behavior often requires remembering continuously structured information, e.g. positions in the visua...