A Silicon Model of Amplitude Modulation Detection in the Auditory Brainstem

André van Schaik, Eric Fragnière, Eric A. Vittoz

NeurIPS 1996 pp. 741-750

/neurips/1996/vanschaik1996neurips-silicon/

Abstract

Detectim of the periodicity of amplitude modulatim is a major step in the determinatim of the pitch of a SOODd. In this article we will present a silicm model that uses synchrroicity of spiking neurms to extract the fundamental frequency of a SOODd. It is based m the observatim that the so called 'Choppers' in the mammalian Cochlear Nucleus synchrmize well for certain rates of amplitude modulatim, depending m the cell's intrinsic chopping frequency. Our silicm model uses three different circuits, i.e., an artificial cochlea, an Inner Hair Cell circuit, and a spiking neuron circuit

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Text

van Schaik et al. "A Silicon Model of Amplitude Modulation Detection in the Auditory Brainstem." Neural Information Processing Systems, 1996.

Markdown

[van Schaik et al. "A Silicon Model of Amplitude Modulation Detection in the Auditory Brainstem." Neural Information Processing Systems, 1996.](https://mlanthology.org/neurips/1996/vanschaik1996neurips-silicon/)

BibTeX

@inproceedings{vanschaik1996neurips-silicon,
  title     = {{A Silicon Model of Amplitude Modulation Detection in the Auditory Brainstem}},
  author    = {van Schaik, André and Fragnière, Eric and Vittoz, Eric A.},
  booktitle = {Neural Information Processing Systems},
  year      = {1996},
  pages     = {741-750},
  url       = {https://mlanthology.org/neurips/1996/vanschaik1996neurips-silicon/}
}