Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
CCS |
2020-03-26 10:00 |
Tokyo |
Hosei Univ. Ichigaya Campus (Cancelled but technical report was issued) |
Nonlinear response of a cochlea model based on asynchronous cellular automaton Shun Onodera, Hiroyuki Torikai (Hosei Univ.) CCS2019-37 |
In this paper, we consider nonlinear response characteristics of a cochlea model based on an asynchronous cellular autom... [more] |
CCS2019-37 pp.13-16 |
CCS |
2019-11-15 09:55 |
Hyogo |
Kobe Univ. |
Basics characteristics asynchronous discrete state reservoir Masato Ishikawa, Hiroyuki Torikai (Hosei Univ.) CCS2019-30 |
This paper studies a neuron model (soma-dendrite-spine model), the dynamics of which is described by an asynchronous ce... [more] |
CCS2019-30 pp.29-32 |
CCS, NLP |
2019-06-07 13:20 |
Niigata |
machinaka campus nagaoka |
Asynchronous Cellular Automata and Reservoir Computing
-- Beyond the Edge of Chaos -- Daisuke Uragami (Nihon Univ.), Yulkio-Pegio Gunji (Waseda Univ.) NLP2019-20 CCS2019-3 |
The asynchronous tuned cellular automaton (AT_ECA) we have proposed has been shown to generate critical spatiotemporal p... [more] |
NLP2019-20 CCS2019-3 pp.11-14 |
CCS |
2018-11-22 13:50 |
Hyogo |
Kobe Univ. |
On bifurcation phenomena of a gene network model based on asynchronous cellular automaton Takuya Yoshimoto (Kyoto Sangyo Univ.), Hiroyuki Torikai (Hosei Univ.) CCS2018-35 |
In this paper, we consider a modeling method of a gene network, which simulates dynamics of repair of DNA damage, using ... [more] |
CCS2018-35 pp.11-15 |
CCS |
2017-11-10 11:25 |
Osaka |
Osaka Univ. |
On a Classification Function of an Asynchronous Cellular Automaton Spiking Neural Network Taiki Naka, Hiroyuki Torikai (Kyoto Sangyo Univ.) CCS2017-29 |
In this paper, we consider a spike neural network consisting of asynchronous cellular automaton neurons, which has trans... [more] |
CCS2017-29 pp.45-48 |
CCS |
2017-11-10 14:05 |
Osaka |
Osaka Univ. |
On Analysis and Application of Coupled Asynchronous Cellular Automaton Oscillators Kentaro Takeda, Hiroyuki Torikai (Kyoto Sangyo Univ.) CCS2017-31 |
In this paper, a central pattern generator (CPG) model coupled by asynchronous cellular automaton oscillators is investi... [more] |
CCS2017-31 pp.55-59 |
CCS |
2017-11-10 14:30 |
Osaka |
Osaka Univ. |
On a DNA Damage Model based on Asynchronous Cellular Automaton Yoshimoto Takuya, Hiroyuki Torikai (Kyoto Sangyo Univ.) CCS2017-32 |
In this paper, we consider a modeling method of a gene network, which simulates dynamics triggered by DNA damage, using... [more] |
CCS2017-32 pp.61-66 |
NLP |
2016-03-24 13:00 |
Kyoto |
Kyoto Sangyo Univ. |
Analysis of basic characteristics of a network of neuron model based on asynchronous bifurcation processor Kanata Isobe, Hiroyuki Torikai (Kyoto Sangyo Univ.) NLP2015-142 |
A novel network of asynchronous cellular automaton neuron models with spike timing dependent plasticity and a dopamine m... [more] |
NLP2015-142 pp.1-5 |
NLP |
2016-03-24 13:25 |
Kyoto |
Kyoto Sangyo Univ. |
Implementation of Boltzmann Machine by Asynchronous Network of Cellular Automaton-based Neurons Takashi Matsubara, Kuniaki Uehara (Kove Univ.) NLP2015-143 |
Artificial neural networks with stochastic state transitions, such as Deep Boltzmann Machine, have excelled other machin... [more] |
NLP2015-143 pp.7-10 |
NLP |
2016-03-24 13:50 |
Kyoto |
Kyoto Sangyo Univ. |
A gene network model based on asynchronous bifurcation processor Ryota Araki, Hiroyuki Torikai (Kyoto Sangyo Univ.) NLP2015-144 |
The gene affects various behaviors of animals such as circadian rhythm, courtship behavior, motor behavior, visual behav... [more] |
NLP2015-144 pp.11-15 |
CCS |
2015-11-09 12:55 |
Kyoto |
Inamori Foundation Memorial Building, Kyoto Univ. |
Learning characteristics of a network of neuron model based on asynchronous bifurcation processor Kanata Isobe, Hiroyuki Torikai (Kyoto Sangyo Univ.) CCS2015-48 |
A novel network of asynchronous cellular automaton neuron models with spike timing dependent plasticity and a dopamine m... [more] |
CCS2015-48 pp.17-21 |
CCS |
2015-11-09 13:20 |
Kyoto |
Inamori Foundation Memorial Building, Kyoto Univ. |
Effects of delay in a network of asynchronous bifurcation processor neuron models Jun Iwama, Hiroyuki Torikai (Kyoto Sangyo Univ.) CCS2015-49 |
In this article, effects of spike transmission delays in a network of asynchronous bifurcation processor type neuron mod... [more] |
CCS2015-49 pp.23-28 |
MBE, NC (Joint) |
2014-10-18 14:25 |
Osaka |
Osaka Electro-Communication University |
Design of artificial neural system by using asynchronous bifurcation processor Masato Izawa (Osaka Univ.), Hiroyuki Torikai (Kyoto Sangyo Univ.) NC2014-21 |
The mammalian cochlear consists of highly nonlinear components: lymph (viscous fluid), a basilar membrane (vibrating mem... [more] |
NC2014-21 pp.1-6 |
NLP |
2014-01-22 11:20 |
Hokkaido |
Niseko Park Hotel |
An asynchronous cellular automaton model of a nonlinear auditory nervous system Masato Izawa (Osaka Univ.), Hiroyuki Torikai (Kyoto Sangyo Univ.) NLP2013-150 |
The mammalian cochlear consists of nonlinear compornents: lymph (fluid dynamics), basilar menbrane (vibrating membrane),... [more] |
NLP2013-150 pp.111-116 |
NLP |
2014-01-22 11:40 |
Hokkaido |
Niseko Park Hotel |
Analysis of a Dendritic Network Based on an Asynchronous Cellular Automaton Naoki Shimada (Osaka Univ.), Hiroyuki Torikai (Kyouto Sangyo Univ.) NLP2013-151 |
The neuron is roughly divided into three parts: soma, dendrite, and axon.
In this paper, a multi-compartment neuron mod... [more] |
NLP2013-151 pp.117-122 |
NLP |
2013-03-15 13:20 |
Chiba |
Nishi-Chiba campus, Chiba Univ. |
A multi-compartment neuron model based on asynchronous cellular automaton Naoki Shimada, Hiroyuki Torikai (Osaka Univ.) NLP2012-168 |
As one of the neuron models based on asynchronous cellular automata, a resonate-and-fire digital spiking neuron (RDN) ha... [more] |
NLP2012-168 pp.127-132 |
NLP |
2013-03-15 16:00 |
Chiba |
Nishi-Chiba campus, Chiba Univ. |
An asynchronous cellular automaton model of spiral ganglion cell Masato Izawa, Hiroyuki Torikai (Osaka Univ.) NLP2012-174 |
The mammalian ear is divided into the outer ear receiving a sound wave, the middle ear amplifying a sound wave and the i... [more] |
NLP2012-174 pp.159-164 |
COMP |
2005-10-18 10:25 |
Miyagi |
Tohoku Univ. |
An asynchronous cellular space in which synchronous reversible cellular automata can be embedded Jin-Shan Qi, Kenichi Morita (Hiroshima Univ.) |
We proposed a 2-dimensional 2-state asynchronous cellular automaton in which asynchronous logic elements called a rotary... [more] |
COMP2005-38 pp.15-20 |
COMP |
2005-09-15 10:00 |
Osaka |
Osaka Univ., Toyonaka Campus |
A construction method of synchronous reversible cellular automata using simple asynchronous logic elements Jin-Shan Qi, Kenichi Morita (Hiroshima Univ.) |
We proposed a new method of realizing a synchronous reversible partitioned cellular automaton concisely, which is comput... [more] |
COMP2005-29 pp.9-16 |