Presentation | 2008-11-06 An artificial model of spiral ganglion cell and its pulse coding characteristics Hiroyuki TORIKAI, Toru NISHIGAMI, |
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Abstract(in Japanese) | (See Japanese page) |
Abstract(in English) | In the mammalian inner ear, the inner hair cell transforms a sound-induced mechanical vibration into an electric potential. The spiral ganglion cell encodes the electric potential into a spike-train which is transmitted to the central nervous system. In this paper we present a novel artificial electrical circuit model of the spiral ganglion cell. We derive a return map which can analytically describe dynamics of the model. Using the map, we can derive theorems that guarantee that the presented model can realize some of important properties of the biological spiral ganglion cell. The theorems are confirmed numerically. |
Keyword(in Japanese) | (See Japanese page) |
Keyword(in English) | Spiral Ganglion Cell / Pulse Coding / Analog-to-Digital Conversion / Chaos |
Paper # | NLP2008-57 |
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Committee | NLP |
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Conference Date | 2008/10/30(1days) |
Place (in Japanese) | (See Japanese page) |
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Registration To | Nonlinear Problems (NLP) |
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Language | ENG |
Title (in Japanese) | (See Japanese page) |
Sub Title (in Japanese) | (See Japanese page) |
Title (in English) | An artificial model of spiral ganglion cell and its pulse coding characteristics |
Sub Title (in English) | |
Keyword(1) | Spiral Ganglion Cell |
Keyword(2) | Pulse Coding |
Keyword(3) | Analog-to-Digital Conversion |
Keyword(4) | Chaos |
1st Author's Name | Hiroyuki TORIKAI |
1st Author's Affiliation | Dept. of Systems Innovation, Grad. School of Engineering Science, Osaka University() |
2nd Author's Name | Toru NISHIGAMI |
2nd Author's Affiliation | Dept. of Systems Innovation, Grad. School of Engineering Science, Osaka University |
Date | 2008-11-06 |
Paper # | NLP2008-57 |
Volume (vol) | vol.108 |
Number (no) | 276 |
Page | pp.pp.- |
#Pages | 6 |
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