Complex coherent dynamics is present in a wide variety of neural systems. A typical example is the voltage transitions between up and down states observed in cortical areas in the brain. In this work, we study this phenomenon via a biologically motivated stochastic model of up and down transitions. The model is constituted by a simple bistable rate dynamics, where the synaptic current is modulated by short-term synaptic processes which introduce stochasticity and temporal correlations. A complete analysis of our model, both with mean-field approaches and numerical simulations, shows the appearance of complex transitions between high (up) and low (down) neural activity states, driven by the synaptic noise, with permanence times in the up sta...
The way in which cortical microcircuit components -- most importantly neurons -- and their connectiv...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
Computational studies often proceed from the premise that cortical dynamics operate in a linearly st...
Complex coherent dynamics is present in a wide variety of neural systems. A typical example is the v...
Contains fulltext : 87931.pdf (publisher's version ) (Open Access)Complex coherent...
The cerebral cortex is continuously active in the absence of external stimuli. An example of this sp...
Cortical neurons are bistable; as a consequence their local field potentials can fluctuate between q...
<div><p>Cortical neurons are bistable; as a consequence their local field potentials can fluctuate b...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in-vivo and in-vitro, such as...
Stochastic fluctuations are intrinsic to and unavoidable at every stage of neural dynamics. For exam...
Cortical neuronal networks are known to exhibit regimes of dynamical activity characterized by perio...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
We study a stochastic neural-network model in which neurons and synapses change with a priori probab...
The way in which cortical microcircuit components -- most importantly neurons -- and their connectiv...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
Computational studies often proceed from the premise that cortical dynamics operate in a linearly st...
Complex coherent dynamics is present in a wide variety of neural systems. A typical example is the v...
Contains fulltext : 87931.pdf (publisher's version ) (Open Access)Complex coherent...
The cerebral cortex is continuously active in the absence of external stimuli. An example of this sp...
Cortical neurons are bistable; as a consequence their local field potentials can fluctuate between q...
<div><p>Cortical neurons are bistable; as a consequence their local field potentials can fluctuate b...
Complex collective activity emerges spontaneously in cortical circuits in vivo and in vitro, such as...
Complex collective activity emerges spontaneously in cortical circuits in-vivo and in-vitro, such as...
Stochastic fluctuations are intrinsic to and unavoidable at every stage of neural dynamics. For exam...
Cortical neuronal networks are known to exhibit regimes of dynamical activity characterized by perio...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
Synaptic plasticity is considered to play a crucial role in the experience-dependent self-organizati...
We study a stochastic neural-network model in which neurons and synapses change with a priori probab...
The way in which cortical microcircuit components -- most importantly neurons -- and their connectiv...
Firing patterns in the central nervous system often exhibit strong temporal irregularity and conside...
Computational studies often proceed from the premise that cortical dynamics operate in a linearly st...