Population density methods provide promising time-saving alternatives to direct Monte Carlo simulations of neuronal network activity, in which one tracks the state of thousands of individual neurons and synapses. A population density method has been found to be roughly a hundred times faster than direct simulation for various test networks of integrate-and-fire model neurons with instantaneous excitatory and inhibitory post-synaptic conductances. In this method, neurons are grouped into large populations of similar neurons. For each population, one calculates the evolution of a probability density function (PDF) which describes the distribution of neurons over state space. The population firing rate is then given by the total flux of probab...
A: Gain curve for quadratic-integrate-and-fire neurons. Population density techniques handle deviati...
The use of a population dynamics approach promises efficient simulation of large assemblages of neur...
The importance of a mesoscopic description level of the brain has now been well established. Rate ba...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
Population density techniques can be used to simulate the behavior of a population of neurons which ...
Population density techniques are efficient simulation techniques for modeling large homogeneous pop...
We propose a macroscopic approach towards realistic simulations of population activity of cortical n...
We review a statistical physics approach for reduced descriptions of neuronal network dynamics. From...
<div><p>The manner in which different distributions of synaptic weights onto cortical neurons shape ...
The integrate-and-fire neuron with exponential postsynaptic potentials is a frequently employed mode...
The manner in which different distributions of synaptic weights onto cortical neurons shape their sp...
A: The evolution of the joint probability density function at four different points in time (1, 5, 1...
This contribution deals with the implementation of procedures and methods, worked out in our group...
We propose a macroscopic approach toward realistic simulations of the population activity of hippoca...
A: Gain curve for quadratic-integrate-and-fire neurons. Population density techniques handle deviati...
The use of a population dynamics approach promises efficient simulation of large assemblages of neur...
The importance of a mesoscopic description level of the brain has now been well established. Rate ba...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
Population density methods provide promising time-saving alternatives to direct Monte Carlo simulati...
Population density techniques can be used to simulate the behavior of a population of neurons which ...
Population density techniques are efficient simulation techniques for modeling large homogeneous pop...
We propose a macroscopic approach towards realistic simulations of population activity of cortical n...
We review a statistical physics approach for reduced descriptions of neuronal network dynamics. From...
<div><p>The manner in which different distributions of synaptic weights onto cortical neurons shape ...
The integrate-and-fire neuron with exponential postsynaptic potentials is a frequently employed mode...
The manner in which different distributions of synaptic weights onto cortical neurons shape their sp...
A: The evolution of the joint probability density function at four different points in time (1, 5, 1...
This contribution deals with the implementation of procedures and methods, worked out in our group...
We propose a macroscopic approach toward realistic simulations of the population activity of hippoca...
A: Gain curve for quadratic-integrate-and-fire neurons. Population density techniques handle deviati...
The use of a population dynamics approach promises efficient simulation of large assemblages of neur...
The importance of a mesoscopic description level of the brain has now been well established. Rate ba...