Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
MSS, CAS, SIP, VLD |
2019-07-30 15:15 |
Iwate |
Iwate Univ. |
[Invited Talk]
Functional Roles of Phase Resetting Control in Rhythmic Movements and their Engineering Applications
-- Mathematical Design of an Optimal Phase Response Curve for Walking Control -- Kazuki Nakada (Tsukuba Univ. Tech..), Keiji Miura (Kwansei Gakuin Univ.) CAS2019-9 VLD2019-15 SIP2019-25 MSS2019-9 |
Possible functional roles of the phase resetting control during rhythmic movements have attracted much attention. The ph... [more] |
CAS2019-9 VLD2019-15 SIP2019-25 MSS2019-9 p.39 |
SS, MSS |
2018-01-19 15:30 |
Hiroshima |
|
Mathematical Analysis of Phase Resetting Control Mechanism during Rhythmic Movements Kazuki Nakada (Hiroshima City Univ.), Keiji Miura (Kwansei Gakuin Univ.) MSS2017-72 SS2017-59 |
Recently, possible functional roles of the phase resetting control during rhythmic movements have attracted much attenti... [more] |
MSS2017-72 SS2017-59 pp.143-148 |
CCS |
2017-06-29 15:00 |
Ibaraki |
Ibaraki Univ. |
[Invited Lecture]
An Optimization of the Phase Resetting Control and its Application to Walking Control Kazuki Nakada (Hiroshima City Univ.) CCS2017-4 |
Recently, the functional role of the phase resetting control during rhythmic movement including walking has been focused... [more] |
CCS2017-4 pp.15-20 |
MBE, NC (Joint) |
2016-11-19 10:25 |
Miyagi |
Tohoku University |
A Pacemaker Network Model of Photoperiod-dependent Synchronization Dynamics in Suprachiasmatic Nucleus Ayumi Yoshioka, Mitsuyuki Nakao, Norihiro Katayama (Tohoku Univ.) MBE2016-53 |
Most of living things on the earth have 24hour biological rhythms, whereby they can adapt to the daily light-dark cycle.... [more] |
MBE2016-53 pp.25-28 |
NC, IPSJ-BIO, IBISML, IPSJ-MPS [detail] |
2016-07-05 16:25 |
Okinawa |
Okinawa Institute of Science and Technology |
Sparse Simultaneous Estimation of Phase Response Curves using Spike-Triggered Average Man Arakaki, Yasuhiko Igarashi (Univ. Tokyo), Toshiaki Omori (Kobe Univ.), Masato Okada (Univ. Tokyo/RIKEN) NC2016-7 |
Phase response curves (PRC) have been used extensively to estimate the response properties of neurons.
A recent measure... [more] |
NC2016-7 pp.165-170 |
NC |
2014-01-20 10:00 |
Fukuoka |
Kyusyu Institute of Technology |
Efficient Phase Response Curve Estimation from Colored Spike Triggered Average Kazuhiko Morinaga, Ryota Miyata, Toru Aonishi (Tokyo Inst. of Tech.) NC2013-67 |
Phase response curve (PRC) is an important measure to study neural ensemble synchrony. Recently, for this purpose severa... [more] |
NC2013-67 pp.1-6 |
NC, IPSJ-BIO |
2013-06-28 10:30 |
Okinawa |
Okinawa Institute of Science and Technology |
Optimal pairs of coupling function and STDP window function for auto-associative memory Ryota Miyata, Keita Sato, Toru Aonishi (Tokyo Inst. of Tech.) NC2013-6 |
From the computational viewpoint, Lengyel et al. (2005) derived an optimal auto-associative memory algorithm to store an... [more] |
NC2013-6 pp.101-106 |
NC |
2012-10-05 16:35 |
Fukuoka |
Kyushu Institute of Technology (Wakamatsu Campus) |
Dynamical Systems Design of Silicon Neurons based on Phase Reduction Theory Kazuki Nakada (Kyushu Univ.), Keiji Miura (Tohoku Univ.), Tetsuya Asai (Hokkaido Univ.) NC2012-60 |
Recently, dynamical systems design approaches based the mathematical structure of nonlinear systems have been developed.... [more] |
NC2012-60 pp.139-144 |
NC |
2012-07-31 13:40 |
Shiga |
Ritsumeikan Univ. College of Information Science and Engineering |
Characteristics Prediction of Synaptic Modification in the Hippocampal CA1 Network by Mutual information maximization
-- Reverse Replay and Temporally Structured Replay Cases -- Ryota Miyata (Tokyo Tech.), Keisuke Ota (RIKEN), Toru Aonishi (Tokyo Tech.) NC2012-30 |
It has been reported that reverse replay and temporally-structured replay of ensemble spiking patterns occur during both... [more] |
NC2012-30 pp.89-94 |
NC, IPSJ-BIO |
2012-06-28 14:15 |
Okinawa |
OIST, Okinawa |
Characteristics Prediction of Synaptic Modification in the Hippocampal CA1 Network by Mutual information maximization Ryota Miyata (Tokyo Tech.), Keisuke Ota (RIKEN), Toru Aonishi (Tokyo Tech.) NC2012-10 |
We employ a top-down approach to finding optimal neural implementations for executing a computation of the hippocampal C... [more] |
NC2012-10 pp.53-58 |
ICD |
2012-03-26 10:00 |
Osaka |
Osaka Univ. |
Integrated Circuit Implementation of Piecewise Linear Oscillators and its Application to Phase Reset Control Kazuki Nakada (Kyushu Univ.), Kiyotoshi Matsuoka (Kyutech) ICD2011-145 |
In this work, we focus on a piecewise linear oscillator known as the Matsuoka oscillator constituting the component elem... [more] |
ICD2011-145 pp.1-6 |
MBE, NC (Joint) |
2012-03-14 16:00 |
Tokyo |
Tamagawa University |
Cooperation in two-person alternate tapping task
-- analyses of a coupled oscillator model using phase transition curves -- Yinjie Cheng (Univ. Tokyo/RIKEN), Masahiro Kawasaki (RIKEN), Keiichi Kitajo (RIKEN/JST), Yoko Yamaguchi (Univ. Tokyo/RIKEN) NC2011-140 |
Communications can be carried out smoothly only if the participants can coordinate their temporal interactions. To under... [more] |
NC2011-140 pp.111-116 |
NC, MBE (Joint) |
2011-03-08 15:25 |
Tokyo |
Tamagawa University |
The Formulation of Time-Offset Curve by the Phase Description Ryo Toriumi (TITECH), Keisuke Ota (Riken), Toru Aonishi (TITECH) NC2010-180 |
Rodent hippocampal CA1 place cells are known as the cells which encode the location of moving rats by theta phase preces... [more] |
NC2010-180 pp.313-318 |
NC, NLP, IPSJ-BIO [detail] |
2010-06-19 13:50 |
Okinawa |
Ryukyu-daigaku-gozyu-syunen-kinenn-kaikan |
Stochastic phase description of fluctuating rhythmic elements Shigefumi Hata (Kyoto Univ.), Kensuke Arai (RIKEN), Hiroya Nakao (Kyoto Univ.) NLP2010-16 NC2010-16 |
Rhythmic elements are widely distributed in nature and synchronization among them attracts much attention in diverse fie... [more] |
NLP2010-16 NC2010-16 pp.135-139 |
IBISML |
2010-06-15 14:45 |
Tokyo |
Takeda Hall, Univ. Tokyo |
Efficient estimation of phase response curves using a data transformation Ken Nakae (SOKENDAI) IBISML2010-19 |
Recent studies show that synchronization between neurons is essential to understand brain functions. To analyze the sync... [more] |
IBISML2010-19 pp.125-129 |
NLP |
2009-11-13 09:35 |
Kagoshima |
|
A phase reduction approach for synchronization of chaotic systems Takashi Imai (Kyoto Univ.), Hiromichi Suetani (Kagoshima Univ./JST, PRESTO/RIKEN ASI), Toshio Aoyagi (Kyoto Univ./JST, CREST) NLP2009-99 |
We propose a phase reduction approach to study chaotic synchronization without direct simulations of original perturbed ... [more] |
NLP2009-99 pp.97-102 |
NC, NLP |
2009-07-14 14:00 |
Nara |
NAIST |
Influence of Neural Refractory Period on Phase Response Curve Munenori Iida, Toshiaki Omori (Univ. of Tokyo), Toru Aonishi (Tokyo Tech.), Masato Okada (Univ. of Tokyo) NLP2009-40 NC2009-33 |
It is necessary to elucidate the relation between neuronal dynamics and membrane response property to understand the dyn... [more] |
NLP2009-40 NC2009-33 pp.139-144 |
NC, MBE (Joint) |
2009-03-11 09:30 |
Tokyo |
Tamagawa Univ. |
Spike Triggered Analysis Based on Higher-Order Perturbation Expansion for Oscillating Mode Keisuke Ota (Tokyo Inst. of Tech.), Toshiaki Omori, Masato Okada (Univ. of Tokyo/RIKEN), Toru Aonishi (Tokyo Inst. of Tech/RIKEN) NC2008-114 |
Neurons can be interpreted as an encoder transforming some specific external stimuli into spikes, and the mechanism of t... [more] |
NC2008-114 pp.63-68 |
NC, MBE (Joint) |
2008-03-12 15:40 |
Tokyo |
Tamagawa Univ |
Bayesian Restoration of Phase Response Curves and Prediction of Stochastic Behavior of Hippocampal CA1 Pyramidal Neurons Keisuke Ota (Tokyo Tech), Toru Aonishi (Tokyo Tech/RIKEN), Shigeo Watanabe, Hiroyoshi Miyakawa (TUPLS), Toshiaki Omori (JSPS PD/RIKEN), Masato Okada (Univ of Tokyo/RIKEN) NC2007-142 |
Recently, phase response curves (PRCs) of various neurons have been estimated by perturbation-response experiments. We h... [more] |
NC2007-142 pp.181-186 |
NC, MBE (Joint) |
2008-03-13 14:10 |
Tokyo |
Tamagawa Univ |
Prediction of PRCs in Hippocampal CA3 Neurons by Top-down Approach Toru Aonishi (Tokyo Tech.) NC2007-156 |
We proposed a top-down framework based on the statistical mechanics to predict phase response curves (PRCs) of hippocamp... [more] |
NC2007-156 pp.261-266 |