Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
HIP |
2022-12-23 16:15 |
Miyagi |
Research Institute of Electrical Communication (Primary: On-site, Secondary: Online) |
Enhancement and Inhibition in Size of Visual Attention with Steady State Visual Evoked Potential Chen Guangyu, Satoshi Shioiri (Tohoku Unvi.) HIP2022-74 |
This study investigated how human’s spatial attention changes to cover different sizes of visual stimuli. We measured St... [more] |
HIP2022-74 pp.84-88 |
NC, MBE (Joint) |
2022-09-29 15:00 |
Miyagi |
Tohoku Univ. (Primary: On-site, Secondary: Online) |
Examination of EEG preprocessing method using temporal characteristics of visual evoked potentials Kazuhiko Goto (TMCIT) MBE2022-17 |
Visual evoked potentials (VEP) amplitudes are lower than EEG and artifacts, so the recorded data contain a mixture of VE... [more] |
MBE2022-17 pp.7-12 |
NC, MBE (Joint) |
2021-11-26 13:55 |
Online |
Online |
Examination of interface using steady-state visual evoked potential by color-reversed live-action image Kenji Matsunaga, Junichi Hori (Niigata Univ) MBE2021-27 |
The purpose of this study was to realize a brain-computer interface (BCI) of steady-state visual evoked potential (SSVEP... [more] |
MBE2021-27 pp.5-8 |
SIS |
2021-03-05 09:40 |
Online |
Online |
The effect of edge direction in visual stimulus for SSVEP evoking Tsutomu Yoshida, Masaki Ohashi, Akitoshi Itai (Chubu Univ.) SIS2020-53 |
The Steady-State Visual Evoked Potential(SSVEP) is an electroencephalogram evoked when our attention is toward a visual ... [more] |
SIS2020-53 pp.98-102 |
BioX, CNR |
2021-03-02 10:30 |
Online |
Online |
A Study on Personal Identification Using SSVEP Evoked by Modulated Visual Stimulus Yuya Ozeki, Tomoya Tamaki, Akitosi Itai (Chubu Univ.) BioX2020-42 CNR2020-15 |
Recent years, the brain activity based personal identification is attracted attention. We focus on the Steady-State Visu... [more] |
BioX2020-42 CNR2020-15 pp.12-17 |
MBE |
2019-01-31 11:15 |
Saga |
Saga University |
Development of Visual Evoked Potential Recording System Including Real-Time Evaluation Algorithm Shun Yamaguchi (Saga Univ.), Kazuhiko Goto (Hakata Medical College), Takenao Sugi, Yoshitaka Matsuda, Satoru Goto (Saga Univ.), Takuro Ikeda (IUHW), Takao Yamasaki, Shozo Tobimatsu (Kyushu univ.), Yoshinobu Goto (IUHW) MBE2018-60 |
The purpose of this study is to construct the real-time evaluation system for visual evoked potential (VEP) recording. G... [more] |
MBE2018-60 pp.13-16 |
HIP |
2017-10-23 16:10 |
Kyoto |
Kyoto Terrsa |
Relationship between flickering frequency and SSVEP response in peripheral visual field Kenta Nakashima, Tetsuto Minami, Hiroshi Higashi, Shigeki Nakauchi (TUT) HIP2017-63 |
Visual system has two modes to pay attention to an object. One is the overt attention that is to pay attention by moving... [more] |
HIP2017-63 pp.35-38 |
MBE, BioX |
2017-07-29 11:15 |
Tokushima |
Tokushima University |
Toward the practical use of the brain-computer interface system using steady-state visual evoked potential Hirokazu Sadahisa, Kiyohisa Natsume (KIT) BioX2017-14 MBE2017-23 |
An electroencephalography (EEG) is considered as a human interface in the near future. However, the practical use of EEG... [more] |
BioX2017-14 MBE2017-23 pp.25-30 |
MBE |
2017-01-28 09:30 |
Fukuoka |
Kyushu University |
In vivo analysis of electrode-surface characteristic for evoked potential recording using electrochemical impedance spectroscopy to evaluate the safety of visual prostheses Mariko Kuwabara (Kyushu Univ.), Hiroyuki Tashiro (Kyushu Univ./NAIST), Yasuo Terasawa, Yukari Nakano (Nidek), Yurina Yoshimura (Kyushu Univ.), Kouji Osawa (Nidek), Toshihiko Noda, Takashi Tokuda, Jun Ohta (NAIST) MBE2016-74 |
Safety evaluation is important for development of visual prostheses. Safety assessment requires understanding the long-t... [more] |
MBE2016-74 pp.25-29 |
PRMU, IE, MI, SIP |
2016-05-19 15:40 |
Aichi |
|
Neural Decoding of Code Modulated Visual Evoked Potentials by Spatio-Temporal Inverse Filtering for Brain Computer Interfaces Jun-ichi Sato, Yoshikazu Washizawa (UEC) SIP2016-13 IE2016-13 PRMU2016-13 MI2016-13 |
c-VEP has been investigated resently, and and applied to brain computer interfaces (BCIs). c-VEP BCI exhibits faster com... [more] |
SIP2016-13 IE2016-13 PRMU2016-13 MI2016-13 pp.65-70 |
MBE |
2015-09-24 13:25 |
Niigata |
Nagaoka University of Technology |
Visualization of EEG Connectivity using Cortical Dipole Imaging
-- Application for Visual Evoked Potential -- Takahumi Sugie, Junichi Hori (Niigata Univ.) MBE2015-26 |
The human brain has various functions in respective regions and composes a functional network by connecting each functio... [more] |
MBE2015-26 pp.7-10 |
HIP |
2015-07-18 14:20 |
Fukuoka |
Kyushu Sangyo University |
An EEG investigation on sound contingent visual motion aftereffects Ryo Teraoka (MuroranIT), Wataru Teramoto (Kumamoto Univ), Osamu Watanabe (MuroranIT) HIP2015-50 |
It has recently been demonstrated that an association between sound sequence and visual motion is rapidly formed and, af... [more] |
HIP2015-50 pp.45-50 |
SIS |
2015-03-06 11:25 |
Tokyo |
Meiji Univ. Nakano Campus (Tokyo) |
The Characteristics of SSVEP for Modulated Flickers Koji Nishimura, Syoya Ueda, Akitoshi Itai (Chubu Univ.) SIS2014-108 |
The Steady-State Visual Evoked Potential (SSVEP) is useful as a basis for Brain-computer interface (BCI). The liquid cry... [more] |
SIS2014-108 pp.97-100 |
SIS |
2015-03-06 11:45 |
Tokyo |
Meiji Univ. Nakano Campus (Tokyo) |
A Study on the Relationship Between a Location of Visual Stimulus and SSVEP Takafumi Sakakibara, Syouya Ueda, Akitoshi Itai (Chubu Univ.) SIS2014-109 |
BCI is an interface to operate a computer and external equipment using brain activities. SSVEP is
the periodic EEG resp... [more] |
SIS2014-109 pp.101-104 |
SIP, EA, SP |
2015-03-03 09:00 |
Okinawa |
|
[Poster Presentation]
Reliability-based Automatic Repeat Request for Code Modulation Visual Evoked Potentials in Brain Computer Interfaces Jun-ichi Sato, Yoshikazu Washizawa (UEC) EA2014-97 SIP2014-138 SP2014-160 |
Code modulation visual evoked potential brain computer interface (c-VEP BCI) has been researched widely. The accuracy of... [more] |
EA2014-97 SIP2014-138 SP2014-160 pp.133-138 |
SIP, EA, SP |
2015-03-03 09:00 |
Okinawa |
|
[Poster Presentation]
Asynchronous brain-computer interfacing using canonical correlation analysis in phase space Kaori Suefusa, Toshihisa Tanaka (Tokyo Univ. of Agriculture and Tech.) EA2014-100 SIP2014-141 SP2014-163 |
Brain--computer interfaces (BCIs) can be categorized into two types by its operational protocol: synchronous BCI and asy... [more] |
EA2014-100 SIP2014-141 SP2014-163 pp.151-156 |
NLP |
2015-01-26 11:25 |
Oita |
Compal Hall |
The control of radio control car and video game using steady-state visual evoked potential Keita Yuzawa, Yuuki Nagasawa, Kiyohisa Natsume (Kyutech) NLP2014-116 |
Recently population of elderly persons increases, and the number of a person with a motor disability also increases. For... [more] |
NLP2014-116 pp.19-24 |
MBE |
2015-01-22 13:00 |
Kumamoto |
Kumamoto University |
N1 components evoked by composited simple figures at the lateral occipital region Shoichi Iwashita, Takashi Mitsui, Hiroyuki Uchiyama (Kagoshima Univ) MBE2014-97 |
Although the human lateral occipital cortex,or lateral occipital complex (LOC),is known to play an important role in obj... [more] |
MBE2014-97 pp.21-23 |
MBE |
2015-01-22 13:25 |
Kumamoto |
Kumamoto University |
Feature extraction of EEG topography for analyzing visual evoked potentials Kazuhiko Goto, Takenao Sugi, Yoshitaka Matsuda, Satoru Goto (Saga Univ.), Hiroki Fukuda (Yame Rehabilitation Hospital), Yoshinobu Goto (IUHW), Takao Yamasaki, Shozo Tobimatsu (Kyushu Univ.) MBE2014-98 |
Relationship between topographical distribution and condition of visual stimuli is one of significant items on the analy... [more] |
MBE2014-98 pp.25-28 |
CAS, SIP, MSS, VLD, SIS [detail] |
2014-07-11 09:50 |
Hokkaido |
Hokkaido University |
Methods for selecting user-dipendent parameters in self-paced brain--computer interfaces Kaori Suefusa, Keita Shimpo, Toshihisa Tanaka (TUAT) CAS2014-34 VLD2014-43 SIP2014-55 MSS2014-34 SIS2014-34 |
Brain--computer interfaces (BCIs) control a device by capturing human brain activity.
Depending on an operating protoc... [more] |
CAS2014-34 VLD2014-43 SIP2014-55 MSS2014-34 SIS2014-34 pp.177-181 |