Add to ORKGWe present a new technique for analyzing the probability distribution of output spikes for the integrate and fire model. Using this method we investigate models with arbitrary synaptic response functions and the results, which are compared with numerical simulations, are exact in the limit of a large number of small amplitude inputs. We apply this method to the synchronization problem, in which the relationship between the spread in arrival times of the inputs (the temporal jitter of the synaptic input) and the resultant spread in the times at which the output spikes are generated (output jitter) is analyzed. The results indicate that the ratio of the output jitter to the input jitter is consistently less than one and that it decreases for ...
Pairs of active neurons frequently fire action potentials or "spikes" nearly synchronously (i.e., wi...
Abstract\ud \ud Pairs of active neurons frequently fire action potentials or “spikes” nearly synchro...
One way to analyze how our brains function is to apply statistical models to neural data. In 1998, S...
We present a new technique for analyzing the probability distribution of output spikes for the integ...
This is a publisher’s version of an article published in Australian Journal of Intelligent Informati...
A. N. Burkitt and G. M. Clark, 'Analysis of Integrate and Fire Neurons: Synchronization of Synaptic...
A. N. Burkitt and G.M. Clark, 'Synchronization of the Neural Response to Noisy Periodic Synaptic Inp...
AbstractThe spike trains that transmit information between neurons are stochastic. We used the theor...
I give a review of theoretical attempts to understand how synfire processing works, including an est...
This is an abstract of a paper from Proceedings of the Australian Neuroscience Society 1999 publishe...
© 1999 IEEE. Reprinted from Proceedings of the Joint Conference on Neural NetworksThis material is...
Abstract It was often reported and suggested that the synchronization of spikes can occur without ch...
In this letter, we aim to measure the relative contribution of coincidence detection and temporal in...
The functional significance of correlations between action potentials of neurons is still a matter o...
Coordinated patterns of precisely timed action potentials (spikes) emerge in a variety of neural cir...
Pairs of active neurons frequently fire action potentials or "spikes" nearly synchronously (i.e., wi...
Abstract\ud \ud Pairs of active neurons frequently fire action potentials or “spikes” nearly synchro...
One way to analyze how our brains function is to apply statistical models to neural data. In 1998, S...
We present a new technique for analyzing the probability distribution of output spikes for the integ...
This is a publisher’s version of an article published in Australian Journal of Intelligent Informati...
A. N. Burkitt and G. M. Clark, 'Analysis of Integrate and Fire Neurons: Synchronization of Synaptic...
A. N. Burkitt and G.M. Clark, 'Synchronization of the Neural Response to Noisy Periodic Synaptic Inp...
AbstractThe spike trains that transmit information between neurons are stochastic. We used the theor...
I give a review of theoretical attempts to understand how synfire processing works, including an est...
This is an abstract of a paper from Proceedings of the Australian Neuroscience Society 1999 publishe...
© 1999 IEEE. Reprinted from Proceedings of the Joint Conference on Neural NetworksThis material is...
Abstract It was often reported and suggested that the synchronization of spikes can occur without ch...
In this letter, we aim to measure the relative contribution of coincidence detection and temporal in...
The functional significance of correlations between action potentials of neurons is still a matter o...
Coordinated patterns of precisely timed action potentials (spikes) emerge in a variety of neural cir...
Pairs of active neurons frequently fire action potentials or "spikes" nearly synchronously (i.e., wi...
Abstract\ud \ud Pairs of active neurons frequently fire action potentials or “spikes” nearly synchro...
One way to analyze how our brains function is to apply statistical models to neural data. In 1998, S...