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The Effect of a Refractory Period on the Power Spectrum of Neuronal Discharge - MaRDI portal

The Effect of a Refractory Period on the Power Spectrum of Neuronal Discharge

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Publication:4852642

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DOI10.1137/S0036139993258691zbMath0829.92006WikidataQ99980165 ScholiaQ99980165MaRDI QIDQ4852642

Wyeth Bair, J. N. Franklin

Publication date: 17 January 1996

Published in: SIAM Journal on Applied Mathematics (Search for Journal in Brave)

zbMATH Keywords

power spectral density renewal processes autocorrelation refractory period spike trains visual cortex interspike intervals 40 Hz oscillation composite neuron-firing renewal process neuron- refraction process steady-state neuron firing

Mathematics Subject Classification ID

Neural biology (92C20) Applications of renewal theory (reliability, demand theory, etc.) (60K10)

Related Items (5)

Firing-rate models capture essential response dynamics of LGN relay cells ⋮ Statistical structure of neural spiking under non-Poissonian or other non-white stimulation ⋮ An Interneuron Circuit Reproducing Essential Spectral Features of Field Potentials ⋮ A numerical method for computing interval distributions for an inhomogeneous Poisson point process modified by random dead times ⋮ Generation of Synthetic Spike Trains with Defined Pairwise Correlations

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