Noise in Integrate-and-Fire Neurons: From Stochastic Input to Escape Rates

Noise in Integrate-and-Fire Neurons: From Stochastic Input to Escape Rates (1999)

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by Hans E. Plesser , Wulfram Gerstner

Venue:	TO APPEAR IN NEURAL COMPUTATION.
Citations:	31 - 4 self

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@MISC{Plesser99noisein,
    author = {Hans E. Plesser and Wulfram Gerstner},
    title = {Noise in Integrate-and-Fire Neurons: From Stochastic Input to Escape Rates},
    year = {1999}
}

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Abstract

We analyze the effect of noise in integrate-and-fire neurons driven by timedependent input, and compare the diffusion approximation for the membrane potential to escape noise. It is shown that for time-dependent sub-threshold input, diffusive noise can be replaced by escape noise with a hazard function that has a Gaussian dependence upon the distance between the (noise-free) membrane voltage and threshold. The approximation is improved if we add to the hazard function a probability current proportional to the derivative of the voltage. Stochastic resonance in response to periodic input occurs in both noise models and exhibits similar characteristics.

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