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2008 11th IEEE International Conference on Computational Science and Engineering
Stochastic Synchronization and Array-Enhanced Coherence Resonance in a Bio-inspired Chemical Sensor Array
July 16-July 18
ISBN: 978-0-7695-3193-9
ASCII Text
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Kazuki Nakada, Jun Igarashi, Tetsuya Asai, Katsumi Tateno, Hatsuo Hayashi, Yoshitaka Ohtubo, Tsutomu Miki, Kiyonori Yoshii, "Stochastic Synchronization and Array-Enhanced Coherence Resonance in a Bio-inspired Chemical Sensor Array," 2012 IEEE 15th International Conference on Computational Science and Engineering, pp. 307-312, 2008 11th IEEE International Conference on Computational Science and Engineering, 2008.
 
 
BibTex
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@article{ 10.1109/CSE.2008.45,
author = {Kazuki Nakada and Jun Igarashi and Tetsuya Asai and Katsumi Tateno and Hatsuo Hayashi and Yoshitaka Ohtubo and Tsutomu Miki and Kiyonori Yoshii},
title = {Stochastic Synchronization and Array-Enhanced Coherence Resonance in a Bio-inspired Chemical Sensor Array},
journal ={2012 IEEE 15th International Conference on Computational Science and Engineering},
volume = {0},
year = {2008},
isbn = {978-0-7695-3193-9},
pages = {307-312},
doi = {http://doi.ieeecomputersociety.org/10.1109/CSE.2008.45},
publisher = {IEEE Computer Society},
address = {Los Alamitos, CA, USA},
}
 
 
RefWorks Procite/RefMan/Endnote
x 
 
TY - CONF
JO - 2012 IEEE 15th International Conference on Computational Science and Engineering
TI - Stochastic Synchronization and Array-Enhanced Coherence Resonance in a Bio-inspired Chemical Sensor Array
SN - 978-0-7695-3193-9
SP307
EP312
A1 - Kazuki Nakada,
A1 - Jun Igarashi,
A1 - Tetsuya Asai,
A1 - Katsumi Tateno,
A1 - Hatsuo Hayashi,
A1 - Yoshitaka Ohtubo,
A1 - Tsutomu Miki,
A1 - Kiyonori Yoshii,
PY - 2008
KW - Biological inspired information processing
KW - Chemical sensor array
KW - Noise-induced phenomena
VL - 0
JA - 2012 IEEE 15th International Conference on Computational Science and Engineering
ER -
 
The purpose of our project is to establish how to design brain-inspired chemical sensor arrays from physiological, theoretical, and engineering points of view. In a previous work, a computational model for chemical sensor arrays has been proposed inspired from physiological properties of mouse taste bud cells. The computational model consists of three functional parts: the chemical sensor, the random pulse generator, and the stochastic synchronizer. The model converts the concentration of chemical substances into the degree of stochastic synchronization. We have implemented the chemical sensor array as a silicon devices. We discuss about functional significance of our device in view of noise-induced nonlinear phenomena: stochastic synchronization and array-enhanced coherence resonance.
Index Terms:
Biological inspired information processing, Chemical sensor array, Noise-induced phenomena
Citation:
Kazuki Nakada, Jun Igarashi, Tetsuya Asai, Katsumi Tateno, Hatsuo Hayashi, Yoshitaka Ohtubo, Tsutomu Miki, Kiyonori Yoshii, "Stochastic Synchronization and Array-Enhanced Coherence Resonance in a Bio-inspired Chemical Sensor Array," cse, pp.307-312, 2008 11th IEEE International Conference on Computational Science and Engineering, 2008
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