• Title of article

    Noise-induced divisive gain control in neuron models

  • Author/Authors

    Longtin، André نويسنده , , Doiron، Brent نويسنده , , Bulsara، Adi R. نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2002
  • Pages
    -146
  • From page
    147
  • To page
    0
  • Abstract
    A recent computational study of gain control via shunting inhibition has shown that the slope of the frequency-versus-input (f-I) characteristic of a neuron can be decreased by increasing the noise associated with the inhibitory input (Neural Comput. 13, 227 -248). This novel noise-induced divisive gain control relies on the concommittant increase of the noise variance with the mean of the total inhibitory conductance. Here we investigate this effect using different neuronal models. The effect is shown to occur in the standard leaky integrate-and-fire (LIF) model with additive Gaussian white noise, and in the LIF with multiplicative noise acting on the inhibitory conductance. The noisy scaling of input currents is also shown to occur in the one-dimensional theta-neuron model, which has firing dynamics, as well as a large scale compartmental model of a pyramidal cell in the electrosensory lateral line lobe of a weakly electric fish. In this latter case, both the inhibition and the excitatory input have Poisson statistics; noise-induced divisive inhibition is thus seen in f-I curves for which the noise increases along with the input I. We discuss how the variation of the noise intensity along with inputs is constrained by the physiological context and the class of model used, and further provide a comparison of the divisive effect across models.
  • Keywords
    bias , genetics , meta-analysis , epidemiology
  • Journal title
    BioSystems
  • Serial Year
    2002
  • Journal title
    BioSystems
  • Record number

    47596