Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
NLP |
2024-05-09 13:40 |
Kagawa |
Kagawa Prefecture Social Welfare Center |
Bifurcation analysis of the Hindmarsh-Rose neuron model with electromagnetic induction Masato Saito, Tetsushi Ueta (Tokushima Univ.) |
(To be available after the conference date) [more] |
|
CCS, NLP |
2023-06-09 13:30 |
Tokyo |
Tokyo City Univ. |
Bifurcation analysis and simulation of a biological switch model Quankai Zhang, Tetsushi Ueta (Tokushima Univ) NLP2023-23 CCS2023-11 |
Using a mathematical model of biological switches, we examine the phenomenon of cell differentiation under a cyclic exte... [more] |
NLP2023-23 CCS2023-11 pp.45-48 |
NLP, MSS |
2023-03-15 13:00 |
Nagasaki |
(Primary: On-site, Secondary: Online) |
A scenario obtaining periodic solutions from third-order autonomous system without equilibrium points Ryuichi Yoshida, Seya Amoh, Tetsushi Ueta (Tokushima Univ.) MSS2022-68 NLP2022-113 |
The generation of periodic solutions is one example of a bifurcation in an autonomous system. Usually, periodic solution... [more] |
MSS2022-68 NLP2022-113 pp.31-36 |
NC, NLP |
2023-01-28 14:00 |
Hokkaido |
Future University Hakodate (Primary: On-site, Secondary: Online) |
Revisit on Computations for Bifurcation Problems-a follow-up Tetsushi Ueta (Tokushima Univ.) NLP2022-88 NC2022-72 |
Python is gaining attention as a fundamental programming language for machine learning and data science. This report des... [more] |
NLP2022-88 NC2022-72 pp.36-41 |
NLP |
2021-12-17 13:55 |
Oita |
J:COM Horuto Hall OITA |
Analysis of interconnected cardiac pacemaker cells
-- Focusing on the Na channel -- Naoki Ushiroda, Shinji Doi (Kyoto Univ) NLP2021-50 |
The contraction and relaxation movements of the heart are controlled by electrical signals (action potentials) generated... [more] |
NLP2021-50 pp.32-37 |
NLP |
2021-12-17 15:20 |
Oita |
J:COM Horuto Hall OITA |
Application of bifurcation point detection method by improved nested-layer particle swarm optimization to two-dimensional discrete dynamical systems Takaya Hirayama, Haruna Matsushita (Kagawa Univ.), Hiroaki Kurokawa (Tokyo Univ. of Techology), Takuji Kousaka (Chukyo Univ.) NLP2021-53 |
Nested-layer particle swarm optimization (NLPSO) fails to detect a target bifurcation point when various types of bifurc... [more] |
NLP2021-53 pp.48-51 |
NLP, CCS |
2021-06-11 13:30 |
Online |
Online |
Performance Investigation of Bifurcation Point Search Method Using Differential Evolution in Discrete Dynamical Systems Ryo Adachi, Haruna Matsushita (Kagawa Univ.), Hiroaki Kurokawa (Tokyo Univ. of Technology), Takuji Kousaka (Cyukyo Univ.) NLP2021-6 CCS2021-6 |
Nested particle swarm optimization (NLPSO) has been proposed as a bifurcation point derivation method that doesnot use g... [more] |
NLP2021-6 CCS2021-6 pp.24-27 |
LOIS, IPSJ-SPT, IPSJ-CN |
2021-05-10 15:05 |
Online |
Online |
Branch Analysis of the Random Forest for Recognition of Car Motion Sickness from Eyesight Features Shohta Okuyama, Jun Toyotani, Yuto Omae (NU) LOIS2021-5 |
Some people who get motion sickness only when they are riding without driving. One of the causes of motion sickness in t... [more] |
LOIS2021-5 pp.25-30 |
MSS, NLP (Joint) |
2020-03-09 10:50 |
Aichi |
(Cancelled but technical report was issued) |
Analysis of a pancreatic beta cell model including glycolysis system based on slow-fast decomposition and bifurcation analysis
-- Focusing on the effects of external input and blood glucose -- Tomoki Sugiura, Shinji Doi (Kyoto Univ.) NLP2019-117 |
Insulin secreted by $beta$ cells in pancreatic islets is involved in blood glucose regulation, and insulin secretion is ... [more] |
NLP2019-117 pp.25-30 |
NLP, NC (Joint) |
2019-01-23 09:50 |
Hokkaido |
The Centennial Hall, Hokkaido Univ. |
Analysis of a Hodgkin-Huxley-type model of human atrial myocytes
-- Focusing on the treatment of ionic concentration variables -- Rikutaro Inoshi, Shinji Doi (Kyoto Univ.) NLP2018-97 |
The electrical signal (action potential) from the sinoatrial node is transmitted to cardiomyocytes in the atrium and ven... [more] |
NLP2018-97 pp.5-10 |
NLP |
2017-05-12 09:30 |
Okayama |
Okayama University of Science |
Bifurcation of a homoclinic point in a simple piecewise linear dynamical system Yuu Miino, Tetsushi Ueta, Hiroshi Kawakami (Tokushima Univ.) NLP2017-15 |
In a certain case, a piecewise linear dynamical system shows rich nonlinear phenomena. In this study, we discuss the hom... [more] |
NLP2017-15 pp.73-76 |
NLP |
2016-09-14 14:30 |
Hyogo |
Konan Univ. |
Nonlinear phenomena observed in the piecewise hysteresis Duffing equation Yuu Miino, Tetsushi Ueta, Hiroshi Kawakami (Tokushima Univ.) NLP2016-50 |
Hysteresis property can be modeled as a piecewise linear function with the hybrid system approach. In this study, we mod... [more] |
NLP2016-50 pp.31-36 |
NLP |
2016-05-27 09:25 |
Kochi |
Kochi Univ. |
Synchronized firing phenomena and bifurcation in coupled Izhikevich neuron model Yuu Miino, Tetsushi Ueta (Tokushima Univ.) NLP2016-11 |
In a coupled Izhikevich neuron model, there are some parameter regions where each neuron arises firing at the same time;... [more] |
NLP2016-11 pp.51-56 |
NLP |
2016-05-27 12:10 |
Kochi |
Kochi Univ. |
Controlling chaos and its stability analysis for Lorenz model with external force control Daisuke Ito (Univ. of Shiga Prefecture), Tetsushi Ueta (Tokushima Univ.) NLP2016-17 |
An external force controller, which is one of controlling chaos methods, gives the difference between objective trajecto... [more] |
NLP2016-17 pp.83-86 |
NLP |
2015-11-01 13:40 |
Okinawa |
Nobumoto Ohama Memorial Hall |
A study on the bifurcation analysis of a human atrial myocyte model toward the creation of a biological pacemaker Yoshiki Ogawa, Shinji Doi (Kyoto Univ.) NLP2015-122 |
Biological pacemaker engineering is a strategy to initiate pacemaker activity in non-pacemaking cells,and it is expected... [more] |
NLP2015-122 pp.87-92 |
NLP |
2015-11-01 14:05 |
Okinawa |
Nobumoto Ohama Memorial Hall |
On the bistability of a cardiac pacemaker cell model Takumi Nagai, Shinji Doi (Kyoto Univ.) NLP2015-123 |
The sinoatrial node plays a role of a cardiac pacemaker.
The sinoatrial node cells generate electrical signals volunta... [more] |
NLP2015-123 pp.93-98 |
NLP, CCS |
2015-06-11 11:20 |
Tokyo |
Waseda Univerisity |
Analysis of the model of coupled pacemaker cells in consideration of the heterogeneous structure Takumi Nagai, Shinji Doi (Kyoto Univ.) NLP2015-44 CCS2015-6 |
Heartbeat is controlled by the electrical signal from sinoatrial node.
The Hodgkin-Huxley type mathematical model can ... [more] |
NLP2015-44 CCS2015-6 pp.31-36 |
NLP, CCS |
2015-06-11 11:45 |
Tokyo |
Waseda Univerisity |
Quantitative assessment of pacemaker activity generated by changing ionic currents in a ventricular cell model Yoshiki Ogawa, Shinji Doi (Kyoto Univ.) NLP2015-45 CCS2015-7 |
In ventricular cells, pacemaker activity is induced by changing ionic current on cell membrane, although those cells are... [more] |
NLP2015-45 CCS2015-7 pp.37-42 |
NLP |
2015-01-26 16:20 |
Oita |
Compal Hall |
A study on the method of biological pacemaker creation based on the bifurcation analysis of a ventricular cell model with hyperpolarization-activated current introduced Yoshiki Ogawa, Shinji Doi (Kyoto Univ.) NLP2014-125 |
Biological pacemaker engineering is a new strategy to initiate pacemaker activity in non-pacemaking cells,and it is expe... [more] |
NLP2014-125 pp.71-76 |
NLP, CAS |
2014-10-16 13:20 |
Ehime |
Ehime University |
Dynamic Image Segmentation using Oscillatory Responses Observed in a Coupled System of One-dimensional Discrete-time Oscillators Mio Kobayashi (Anan, NCT), Tetsuya Yoshinaga (Tokushima Univ.) CAS2014-59 NLP2014-53 |
We propose a novel discrete-time coupled system generating oscillatory responses by periodic points with high order of p... [more] |
CAS2014-59 NLP2014-53 pp.43-48 |