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W2027173466 abstract "The activity of spiking neurons is frequently described by renewal point process models that assume the statistical independence and identical distribution of the intervals between action potentials. However, the assumption of independent intervals must be questioned for many different types of neurons. We review experimental studies that reported the feature of a negative serial correlation of neighboring intervals, commonly observed in neurons in the sensory periphery as well as in central neurons, notably in the mammalian cortex. In our experiments we observed the same short-lived negative serial dependence of intervals in the spontaneous activity of mushroom body extrinsic neurons in the honeybee. To model serial interval correlations of arbitrary lags, we suggest a family of autoregressive point processes. Its marginal interval distribution is described by the generalized gamma model, which includes as special cases the log-normal and gamma distributions, which have been widely used to characterize regular spiking neurons. In numeric simulations we investigated how serial correlation affects the variance of the neural spike count. We show that the experimentally confirmed negative correlation reduces single-neuron variability, as quantified by the Fano factor, by up to 50%, which favors the transmission of a rate code. We argue that the feature of a negative serial correlation is likely to be common to the class of spike-frequency-adapting neurons and that it might have been largely overlooked in extracellular single-unit recordings due to spike sorting errors." @default.
W2027173466 created "2016-06-24" @default.
W2027173466 creator A5042543744 @default.
W2027173466 creator A5046495436 @default.
W2027173466 creator A5067140318 @default.
W2027173466 date "2009-02-06" @default.
W2027173466 modified "2023-09-23" @default.
W2027173466 title "Serial correlation in neural spike trains: Experimental evidence, stochastic modeling, and single neuron variability" @default.
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W2027173466 doi "https://doi.org/10.1103/physreve.79.021905" @default.
W2027173466 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19391776" @default.
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