Response of Spiking Neurons to Correlated Inputs
Abstract
The effect of a temporally correlated afferent current on the firing rate of a leaky integrate-and-fire (LIF) neuron is studied. This current is characterized in terms of rates, auto and cross-correlations, and correlation time scale τc of excitatory and inhibitory inputs. The output rate out is calculated in the Fokker-Planck (FP) formalism in the limit of both small and large τc compared to the membrane time constant τ of the neuron. By simulations we check the analytical results, provide an interpolation valid for all τc and study the neuron's response to rapid changes in the correlation magnitude.
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