Noise Shaping by Interval Correlations Increases Information Transfer

25 February 2004

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 92 (8) , 080601
https://doi.org/10.1103/physrevlett.92.080601

Abstract

The influence of intrinsic firing interspike interval correlations on the noise spectrum and information transfer is studied. This is done through the comparison of two simple firing models, one of which is a renewal process while the other displays interval correlations. These correlations are shown to shape the spike train power spectrum and, in particular, to decrease the noise power at low frequencies. Linear response theory and numerical simulations reveal how this shaping can increase the transmission of information about a time-varying signal. Our results are relevant to the analysis of nonrenewal point processes and signal detection in physics and biology.

Keywords

This publication has 28 references indexed in Scilit:

Stochastic Biperiodic Oscillations in the Electroreceptors of Paddlefish
Physical Review Letters, 2001
Suprathreshold Stochastic Firing Dynamics with Memory in $P$ -Type Electroreceptors
Physical Review Letters, 2000
Interspike Time Distribution in Noise Driven Excitable Systems
Physical Review Letters, 1999
Coexistence of low-frequency fluctuations and stable emission on a single high-gain mode in semiconductor lasers with external optical feedback
Physical Review A, 1998
Stochastic resonance
Reviews of Modern Physics, 1998
Coding of Time-Varying Signals in Spike Trains of Integrate-and-Fire Neurons with Random Threshold
Neural Computation, 1996
Doubly stochastic Poisson point process driven by fractal shot noise
Physical Review A, 1991
Reaction-rate theory: fifty years after Kramers
Reviews of Modern Physics, 1990
Noise tolerance of frequency-locked dynamics
Physical Review B, 1987
Complete charge density-wave mode locking and freeze-out of fluctuations in ${NbSe}_{3}$
Physical Review B, 1985