We propose a simple theoretical structure of interacting integrate and fire neurons that can handle fast information processing, and may account for the fact that only a few neuronal spikes suffice to transmit information in the brain. Using integrate and fire neurons that are subjected to individual noise and to a common external input, we calculate their first passage time (FPT), or inter-spike interval
A generic property of the communication between neurons is the exchange of pulses at discrete time p...
In terms of a single neuron's long-distance communication, interpulse intervals (IPIs) are an attrac...
Despite intensive research, the mechanisms underlying the neural code remain poorly understood. Rece...
We propose a simple theoretical structure of interacting integrate and fire neurons that can handle ...
Time encoding is a mechanism of mapping amplitude information into a time sequence. We show that mul...
Information encoding in spikes and computations performed by spiking neurons are two sides of the sa...
While it is generally agreed that neurons transmit information about their synaptic inputs through s...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
We describe the results of quantitative information theoretic analyses of neural encoding, particula...
In this paper will be presented simple and effective temporal-decoding network topologies, based on ...
The encoding and processing of time-dependent signals into sequences of action potentials of sensory...
Use of spike timing to encode information requires that neurons respond with high temporal precision...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
It is widely acknowledged that detailed timing of action potentials is used to encode information, f...
As its fundamental function, the brain processes and transmits information using populations of inte...
A generic property of the communication between neurons is the exchange of pulses at discrete time p...
In terms of a single neuron's long-distance communication, interpulse intervals (IPIs) are an attrac...
Despite intensive research, the mechanisms underlying the neural code remain poorly understood. Rece...
We propose a simple theoretical structure of interacting integrate and fire neurons that can handle ...
Time encoding is a mechanism of mapping amplitude information into a time sequence. We show that mul...
Information encoding in spikes and computations performed by spiking neurons are two sides of the sa...
While it is generally agreed that neurons transmit information about their synaptic inputs through s...
The information communicated by stereotypical action potentials is thought to be embedded in the tim...
We describe the results of quantitative information theoretic analyses of neural encoding, particula...
In this paper will be presented simple and effective temporal-decoding network topologies, based on ...
The encoding and processing of time-dependent signals into sequences of action potentials of sensory...
Use of spike timing to encode information requires that neurons respond with high temporal precision...
Sensory stimuli are received by sensory neurons and information about these stimuli is further trans...
It is widely acknowledged that detailed timing of action potentials is used to encode information, f...
As its fundamental function, the brain processes and transmits information using populations of inte...
A generic property of the communication between neurons is the exchange of pulses at discrete time p...
In terms of a single neuron's long-distance communication, interpulse intervals (IPIs) are an attrac...
Despite intensive research, the mechanisms underlying the neural code remain poorly understood. Rece...