Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
US |
2024-05-30 13:50 |
Tokyo |
Surugadai Campus, Nihon University |
Vibration distribution measurement of ultrasonic tools designed by topology optimization Yuji Wada, Kentaro Nakamura (Tokyo Tech) |
(To be available after the conference date) [more] |
|
AP, SANE, SAT (Joint) |
2023-07-12 17:40 |
Hokkaido |
The Citizen Activity Center (Primary: On-site, Secondary: Online) |
[Invited Lecture]
Analysis of radio wave propagation characteristics of multiple screen diffraction using finite element method analysis Takuichi Hirano (Tokyo City Univ.) AP2023-38 |
The author tried to analyze the problem of 4th Radio Propagation Modeling Competition (PMC4) of IEICE Technical Committe... [more] |
AP2023-38 pp.41-43 |
EST |
2023-01-26 13:50 |
Okinawa |
(Primary: On-site, Secondary: Online) |
Basic Study of Electrio Magnetic Field Analysis of PCB based on DDM Type Parallel Finite Element Method Kanta Nishijima (UoM), Sota Goto, Toshio Murayama (Sony GM&O), Amane Takei (UoM) EST2022-81 |
In this study, we will verify the applicability of parallel high-frequency electromagnetic field analysis based on the e... [more] |
EST2022-81 pp.39-42 |
EST |
2023-01-26 16:20 |
Okinawa |
(Primary: On-site, Secondary: Online) |
Fast Localization Method for Functional Brain Mapping using Transcranial Magnetic Stimulation Keigo Hikita, Akimasa Hirata (NITech) EST2022-88 |
Transcranial magnetic stimulation (TMS) is a noninvasive and localized stimulation technique for brain tissue, and is us... [more] |
EST2022-88 pp.74-77 |
NC, IBISML, IPSJ-BIO, IPSJ-MPS [detail] |
2021-06-29 15:25 |
Online |
Online |
A finite state markov-chain approximation of the intermittent control model during human quiet standing using a finite element analysis of stochastic hybrid dynamical system Yasuyuki Suzuki, Keigo Togame, Akihiro Nakamura, Taishin Nomura (Osaka Univ) NC2021-16 IBISML2021-16 |
The intermittent control model is capable of reproducing human postural sway during quiet stance by achieving body flexi... [more] |
NC2021-16 IBISML2021-16 pp.108-113 |
AP |
2021-05-21 14:25 |
Online |
Online |
[Tutorial Lecture]
Fundamentals of Finite Element Method for Electromagnetic Simulation and Canonical Problem Examples Takuichi Hirano (Tokyo City Univ.) AP2021-18 |
With the development of computers and analysis methods, electromagnetic field simulators have become an indispensable to... [more] |
AP2021-18 pp.48-53 |
EST |
2021-01-22 14:05 |
Online |
Online |
Computing Derivatives of Propagation Constants by Differentiating Finite Element Matrices for Waveguide Models Naoya Yamamoto, Kouji Hasegawa (MuroranIT) EST2020-74 |
Modified Neloson's and Dailey's methods for computing the derivatives of eigenvectors were presented for asymmetric gene... [more] |
EST2020-74 pp.108-114 |
MW, AP (Joint) |
2020-09-24 15:50 |
Online |
Online |
Fundamental Study on Calculation of S11 for a Coaxial-loaded Type Stepped Cut-off Circular Waveguide Based on the Method of Moments Kouji Shibata (Hachinohe Inst. of Tech.) MW2020-37 |
The author previously proposed a novel jig structure suitable for S11 calibration using SOM (short, open and reference m... [more] |
MW2020-37 pp.13-18 |
NC, MBE (Joint) |
2020-03-06 13:25 |
Tokyo |
University of Electro Communications (Cancelled but technical report was issued) |
A finite state markov-chain approximation of the intermittent control model during human quiet standing using a finite element analysis of its Fokker-Planck equation Keigo Togame, Akihiro Nakamura, Yasuyuki Suzuki, Taishin Nomura (Osaka Univ.) MBE2019-96 |
The intermittent control during human quiet standing is a hypothetical neural control strategy that we have proposed in ... [more] |
MBE2019-96 p.83 |
MBE |
2019-07-20 13:00 |
Tokushima |
|
Analysis of a simple stochastic hybrid dynamical system using its Fokker-Planck equation Keigo Togame, Akihiro Nakamura, Yasuyuki Suzuki, Taishin Nomura (Osaka Univ.) MBE2019-22 |
The intermittent control in human quiet standing is a hypothetical model that we proposed recently, in which a conventio... [more] |
MBE2019-22 pp.19-24 |
MW, EST, OPE, MWP, EMT, IEE-EMT, THz [detail] |
2019-07-18 14:20 |
Hokkaido |
Hakodate City Central Library |
Characteristics improvement of wavelength filter in plasmonic waveguide by using K inverter Hiroki Okamoto, Koichi Hirayama, Jun-ichiro Sugisaka, Takashi Yasui (Kitami Inst. Tech.) EMT2019-14 MW2019-27 OPE2019-18 EST2019-16 MWP2019-14 |
Plasmonic waveguide has been recently expected to reduce the size of optical integrated circuit. In this paper, we desig... [more] |
EMT2019-14 MW2019-27 OPE2019-18 EST2019-16 MWP2019-14 pp.47-52 |
EMCJ |
2019-01-18 13:40 |
Osaka |
Osaka University |
Variation of estimation accuracy by difference between shape and heterogeneity of model for EEG brain wave source localization Yuki Osachi, Takahiro Ito, Akimasa Hirata (NITech) EMCJ2018-104 |
In recent years, effective utilization of biological signals from the brain activity has been progressing in the medical... [more] |
EMCJ2018-104 pp.25-28 |
NC, MBE (Joint) |
2018-12-15 |
Aichi |
Nagoya Institute of Technology |
A neural mechanism of electrosensory discrimination of object’s shape in active electrolocation Hideyo Konya (UEC), Kazuhisa Fujita (KU), Yoshiki Kashimori (UEC) |
Weak electric fish generate an electric field around the fish body to know the surrounding environment. Electric-field m... [more] |
|
EA |
2018-12-13 13:00 |
Fukuoka |
kyushu Univ. |
Active control of acoustic energy in a sound field by finite element method and gain scheduling control theory Akira Higashikawa, Toshiya Samejima (Kyushu Univ.) EA2018-81 |
We propose a method for controlling acoustic energy in a sound field based on finite element modeling and gain-schedulin... [more] |
EA2018-81 pp.1-6 |
EST, MW, OPE, MWP, EMT, IEE-EMT, THz [detail] |
2018-07-20 10:45 |
Hokkaido |
|
Quantitative evaluation of required distance between objects and absorbing boundaries in electromagnetic simulation for open space Takuichi Hirano (Tokyo City Univ.) EMT2018-36 MW2018-51 OPE2018-39 EST2018-34 MWP2018-35 |
Electromagnetic simulation is difficult because there are large freedom in modeling of excitation and boundaries. Absorb... [more] |
EMT2018-36 MW2018-51 OPE2018-39 EST2018-34 MWP2018-35 pp.161-164 |
MBE, NC (Joint) |
2017-12-16 14:55 |
Aichi |
Nagoya University |
Neural coding of object's shape in electrolocation of weakly electic fish Shun Okuno (UEC), Kazuhisa Fujita (NIT, Tsuyama College/UEC), Yoshiki Kashimori (UEC) NC2017-47 |
Weakly electric fish generate an electric field around their fish body. An object nearby fish elicits a modulation of el... [more] |
NC2017-47 pp.41-46 |
AP, MW (Joint) |
2017-09-22 09:45 |
Saitama |
Saitama University |
Mode Matching/FEM Hybrid Analysis for a Short-slot 2-plane Coupler considering the Three-dimensional Structural Symmetry Masahiro Wakasa, Dong-Hun Kim, Takashi Tomura, Jiro Hirokawa (Tokyo Inst. of Tech.) AP2017-91 |
A short-slot 2-plane coupler, which combines short-slot H-plane and E-plane coupler into one body has been proposed. In ... [more] |
AP2017-91 pp.19-23 |
MRIS, ITE-MMS |
2017-06-09 09:15 |
Miyagi |
Tohoku Univ. |
FEM analysis of PMR write head for high data rate Yoshihisa Nakamura (Tohoku Univ.), Ryo Itagaki, Yasushi Kanai (Niigata Inst. Tech.) MR2017-6 |
A write head with a fast response and high efficiency is necessary to realize higher data rates and larger storage capac... [more] |
MR2017-6 pp.41-46 |
MI |
2017-01-18 10:29 |
Okinawa |
Tenbusu Naha |
Deformation Estimation of Elastic Bodies Based on Global Intensity Information from Monocular Images Akira Saito, Megumi Nakao (Kyoto Univ.), Yuki Uranishi (Osaka Univ.), Tetsuya Matsuda (Kyoto Univ.) MI2016-73 |
This study proposes a method to estimate elastic deformation using intensity information obtained from monocular images.... [more] |
MI2016-73 pp.13-18 |
OPE, MW, EMT, MWP, EST, IEE-EMT [detail] |
2016-07-21 13:30 |
Hokkaido |
|
High-performance full-wave electromagnetic field analysis using anatomical human model data Amane Takei (UOM) EMT2016-18 MW2016-49 OPE2016-30 EST2016-19 MWP2016-20 |
In this study, a high-accuracy analysis for the electromagnetic field based on the finite element method using numerical... [more] |
EMT2016-18 MW2016-49 OPE2016-30 EST2016-19 MWP2016-20 pp.71-75 |