This work investigates the capacity of Integrate-and-Fire-type (I&F-type) models to quantitatively predict spike trains of real neurons in various laboratory and in vivo-like settings. A step-by-step methodology is developed to build an equivalent effective model of the threshold type, namely the Spike Response Model, from intracellular recordings. The methodology provides a simple and flexible framework and allows straightforward estimation of model parameters, all of which except the threshold are directly extracted from sample recordings without approximations. Additional features like spike-frequency adaptation, simulated synaptic conductances (as opposed to direct current injection) or stochastic spike initiation can be easily included...
Reduced models have long been used as a tool for the analysis of the complex activity taking place i...
UNiversity of Minnesota Ph.D. dissertation. August 2012. Major: Biomedical Engineering. Advisor: The...
We introduce a two-dimensional integrate-and-fire model that combines an exponential spike mechanism...
We demonstrate that single-variable integrate-and-fire models can quantitatively capture the dynamic...
The ability of simple mathematical models to predict the activity of single neurons is important for...
Neurons generate spikes reliably with millisecond precision if driven by a fluctuating current—is it...
Reduced models of neuronal activity such as Integrate-and-Fire models allow a description of neurona...
Information is transmitted in the brain through various kinds of neurons that respond differently to...
For large-scale network simulations, it is often desirable to have computationally tractable, yet in...
In simulating realistic neuronal circuitry composed of diverse types of neurons, we need an elementa...
In computational neuroscience, it is of crucial importance to dispose of a model that is able to acc...
To any model of brain function, the variability of neuronal spike firing is a problem that needs to ...
Reduced models of neuronal activity such as Integrate-and-Fire models allow a description of neurona...
International audienceA wide diversity of models have been proposed to account for the spiking respo...
Models of the integrate-and-fire type have been widely used in the study of neural systems [1]. Usua...
Reduced models have long been used as a tool for the analysis of the complex activity taking place i...
UNiversity of Minnesota Ph.D. dissertation. August 2012. Major: Biomedical Engineering. Advisor: The...
We introduce a two-dimensional integrate-and-fire model that combines an exponential spike mechanism...
We demonstrate that single-variable integrate-and-fire models can quantitatively capture the dynamic...
The ability of simple mathematical models to predict the activity of single neurons is important for...
Neurons generate spikes reliably with millisecond precision if driven by a fluctuating current—is it...
Reduced models of neuronal activity such as Integrate-and-Fire models allow a description of neurona...
Information is transmitted in the brain through various kinds of neurons that respond differently to...
For large-scale network simulations, it is often desirable to have computationally tractable, yet in...
In simulating realistic neuronal circuitry composed of diverse types of neurons, we need an elementa...
In computational neuroscience, it is of crucial importance to dispose of a model that is able to acc...
To any model of brain function, the variability of neuronal spike firing is a problem that needs to ...
Reduced models of neuronal activity such as Integrate-and-Fire models allow a description of neurona...
International audienceA wide diversity of models have been proposed to account for the spiking respo...
Models of the integrate-and-fire type have been widely used in the study of neural systems [1]. Usua...
Reduced models have long been used as a tool for the analysis of the complex activity taking place i...
UNiversity of Minnesota Ph.D. dissertation. August 2012. Major: Biomedical Engineering. Advisor: The...
We introduce a two-dimensional integrate-and-fire model that combines an exponential spike mechanism...