Add to ORKGAbstract. We present a computational model of neuron, called firing cell (FC), that is a compromise between biological plausibility and computational effi-ciency aimed to simulate spiketrain processing in a living neuronal tissue. FC covers such phenomena as attenuation of receptors for external stimuli, delay and decay of postsynaptic potentials, modification of internal weights due to propagation of postsynaptic potentials through the dendrite, modification of properties of the analog memory for each input due to a pattern of long-time synaptic potentiation (LTP), output-spike generation when the sum of all inputs exceeds a threshold, and refraction. We showed that, depending on the phase of input signals, FC’s output frequency demonstrat...
Abstract: The dynamics of the synaptic transmission can ultimately determine the communication betwe...
[résumé trop long]The important relationship between structure and function has always been a fundam...
Fine temporal patterns of firing in much of the brain are highly irregular. In some circuits, the pr...
The aim of this paper is to present a novel algorithm for learning and forgetting within a very simp...
Neurons compute and communicate by transforming synaptic input patterns into output spike trains. Th...
2011-05-27Neuron spike-train to spike-train temporal transformation is very important to the functio...
Over the last couple of years, it can be said that the focus of the computational aspects of neurons...
We present a model of spike-driven synaptic plasticity inspired by experimental observations and mot...
∗ equal contribution. While spike timing has been shown to carry detailed stimulus information at th...
We describe a simple model of spike processing build upon a number of neural hardware primitives inc...
The most biologically-inspired artificial neurons are those of the third generation, and are termed ...
Izhikevich model of a neuron allows for simulation of spiking pattern that mimics known biological s...
UNiversity of Minnesota Ph.D. dissertation. August 2012. Major: Biomedical Engineering. Advisor: The...
We present a simple rate-reduced neuron model that captures a wide rangeof complex, biologically pla...
Hippocampal place cells provide prototypical examples of neurons firing jointly phase and rate coded...
Abstract: The dynamics of the synaptic transmission can ultimately determine the communication betwe...
[résumé trop long]The important relationship between structure and function has always been a fundam...
Fine temporal patterns of firing in much of the brain are highly irregular. In some circuits, the pr...
The aim of this paper is to present a novel algorithm for learning and forgetting within a very simp...
Neurons compute and communicate by transforming synaptic input patterns into output spike trains. Th...
2011-05-27Neuron spike-train to spike-train temporal transformation is very important to the functio...
Over the last couple of years, it can be said that the focus of the computational aspects of neurons...
We present a model of spike-driven synaptic plasticity inspired by experimental observations and mot...
∗ equal contribution. While spike timing has been shown to carry detailed stimulus information at th...
We describe a simple model of spike processing build upon a number of neural hardware primitives inc...
The most biologically-inspired artificial neurons are those of the third generation, and are termed ...
Izhikevich model of a neuron allows for simulation of spiking pattern that mimics known biological s...
UNiversity of Minnesota Ph.D. dissertation. August 2012. Major: Biomedical Engineering. Advisor: The...
We present a simple rate-reduced neuron model that captures a wide rangeof complex, biologically pla...
Hippocampal place cells provide prototypical examples of neurons firing jointly phase and rate coded...
Abstract: The dynamics of the synaptic transmission can ultimately determine the communication betwe...
[résumé trop long]The important relationship between structure and function has always been a fundam...
Fine temporal patterns of firing in much of the brain are highly irregular. In some circuits, the pr...