Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
OFT |
2014-10-23 13:25 |
Hyogo |
|
Development of ZrO2-SiO2 Based Ultra-High Δ PLC Device Yasuyoshi Uchida, Shintaro Yamasaki, Masanori Takahashi, Junichi Hasegawa, Takeshi Yagi (Furukawa Electric) OFT2014-24 |
Recently, downsizing and high-density integration are required for planar lightwave circuits (PLCs). To realize these fe... [more] |
OFT2014-24 pp.7-12 |
MI |
2014-01-26 11:10 |
Okinawa |
Bunka Tenbusu Kan |
[Fellow Memorial Lecture]
Medical image recognition and Image Processing Expert System Junichi Hasegawa (Chukyo Univ.) MI2013-60 |
In this lecture, several researches on image recognition ant its applications to medical and sports fields, performed by... [more] |
MI2013-60 pp.25-30 |
NC |
2014-01-20 14:15 |
Fukuoka |
Kyusyu Institute of Technology |
Pseudo array of integrate-and-fire neurons with inter-frame interpolation Tadashi Sanada, Hirotsugu Okuno, Jun Hasegawa, Tetsuya Yagi (Osaka Univ.) NC2013-72 |
[more] |
NC2013-72 pp.31-35 |
MBE, NC (Joint) |
2013-03-13 14:10 |
Tokyo |
Tamagawa University |
Real time simulation of retinal ganglion cell response with FPGA Ryoya Ishida, Hyeongsung Cho, Jun Hasegawa, Hirotsugu Okuno, Yuki Hayashida, Tetsuya Yagi (Osaka Univ.) NC2012-148 |
The retinal neuronal circuit processes input image and sends the compressed information to the brain by the ganglion cel... [more] |
NC2012-148 pp.85-88 |
MI |
2013-01-25 13:10 |
Okinawa |
Bunka Tenbusu Kan |
[Poster Presentation]
Development of a Computer-Aided System for Comparative Reading of Liver CT images Sho Yoshida, Junichi Hasegawa (Chukyo Univ.), Shigeru Nawano (IUHW) MI2012-104 |
This paper presents a computer-aided system for comparative CT image reading of liver cancers. The input is a pair of tw... [more] |
MI2012-104 pp.221-225 |
EA |
2012-03-16 13:30 |
Tokyo |
Central Research Laboratory, Hitachi, Ltd. |
Development of a reflection type optical displacement sensor unit for underwater use Masataka Shinba, Jun Hasegawa (Takushoku Univ.) EA2011-124 |
An reflection type optical displacement sensor unit for underwater use was developed to realize simultaneous multi-point... [more] |
EA2011-124 pp.25-30 |
MI |
2011-11-29 09:55 |
Hyogo |
Univ. Hyogo (Portisland C.) |
Improvement of Liver Vessel Registration Procedure for Comparative Reading of Liver CT Images Teruhiko Kinoshita, Shota Kimura, Junichi Hasegawa (Chukyo Univ.), Kenji Shinozaki (National Kyushu Cancer Center), Shigeru Nawano (IUHW) MI2011-64 |
This paper presents an improved procedure for liver vessel registration for comparative reading of liver CT images. In t... [more] |
MI2011-64 pp.7-12 |
NC, MBE (Joint) |
2011-03-08 15:00 |
Tokyo |
Tamagawa University |
Binocular V1 emulator implemented with spike representation Tadashi Sanada, Hirotsugu Okuno (Osaka Univ.), Jun Hasegawa (CIS), Tetsuya Yagi (Osaka Univ.) NC2010-173 |
We have developed a system which reconstructs neural activities in the primary visual cortex (V1) in real time. The syst... [more] |
NC2010-173 pp.271-276 |
MI |
2011-01-20 11:30 |
Okinawa |
Naha-Bunka-Tembusu |
Development of Liver Vessel Registration Method for Comparative Reading of Liver CT Images Teruhiko Kinoshita, Shota Kimura, Junichi Hasegawa (Chukyo Univ), Kenji Shinozaki (Kyushu Cancer Center), Shigeru Nawano (IUHW) MI2010-104 |
In this paper, a method for image registration for comparative reading of liver CT images is presented.
One of importa... [more] |
MI2010-104 pp.121-125 |
NS, IN (Joint) |
2010-03-05 14:50 |
Miyazaki |
Miyazaki Phoenix Seagaia Resort (Miyazaki) |
Silence Suppression Control for VoIP Transport in Wireless Multi Hop Networks Jun Hasegawa (ATR/Okayama Prefectural Univ.), Hiroyuki Yomo, Peter Davis (ATR), Katsumi Sakakibara (Okayama Prefectural Univ.), Ryu Miura, Sadao Obana (ATR) IN2009-205 |
In wireless multi-hop networks employing IEEE 802.11,
the number of supportable VoIP sessions is limited due to large ... [more] |
IN2009-205 pp.365-370 |
MI |
2010-01-28 16:15 |
Okinawa |
Naha-Bunka-Tenbusu |
[Panel Discussion]
The Project "Computational Anatomy", funded by MEXT Grant-in-Aid for Scientific Research on Innovative Areas: What is aimed at? What is expected? Hidefumi Kobatake (Tokyo Univ. of Agr and Tech.), Yoshitaka Masutani (Univ. of Tokyo), Yoshinobu Sato (Osaka Univ.), Hiroshi Fujita (Gifu Univ.), Noboru Niki (Tokushima Univ.), Kensaku Mori (Nagoya Univ.), Akinobu Shimizu (Tokyo Univ. of Agr and Tech.), Shoji Kido (Yamaguchi Univ.), Makoto Hashizume (Kyushu Univ.), Hideaki Haneishi (Chiba Univ.), Junichi Hasegawa (Chukyo Univ.), Tetsuo Sato (Nara Inst. of Sci and Tech.) MI2009-114 |
[more] |
MI2009-114 pp.205-210 |
CQ, MoNA, IPSJ-AVM |
2009-07-09 10:05 |
Hokkaido |
Otaru City Hall |
Silence Suppression Control for VoIP Transport in Wireless Multi Hop Networks Jun Hasegawa (ATR/Okayama Prefectural Univ.), Hiroyuki Yomo, Peter Davis (ATR), Katsumi Sakakibara (Okayama Prefectural Univ.), Ryu Miura, Sadao Obana (ATR) CQ2009-17 |
The number of supportable VoIP sessions is small in wireless multi-hop networks using IEEE 802.11 due to the overhead of... [more] |
CQ2009-17 pp.13-18 |
RCS, IN (Joint) |
2009-05-21 15:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
An Experimental Evaluation of Packet Aggregation and Network Coding for Multi-hop VoIP Transport Hiroyuki Yomo, Jun Hasegawa, Ryu Miura, Sadao Obana (ATR) RCS2009-10 |
In this paper, we present an experimental evaluation of bidirectional packet aggregation and coding (BiPAC),
a packet m... [more] |
RCS2009-10 pp.55-60 |
EA |
2009-03-27 16:00 |
Tokyo |
|
Development of the microphone with the displacement type optical sensor unit. Kayoko Kogure, Jun Hasegawa, Kenji Kobayashi (Takushoku Univ.) EA2008-144 |
An optical displacement sensor with high sensitivity and wide dynamic range was utilized to develop sound transducers fo... [more] |
EA2008-144 pp.49-54 |
NC, MBE (Joint) |
2009-03-13 16:05 |
Tokyo |
Tamagawa Univ. |
Real-time reconstruction of neuralimage of retinal neural circuits Jun Hasegawa, Tetsuya Yagi (Osaka Univ.) NC2008-162 |
With the previous physiological approaches, functional roles of visual neurons have been discussed using the models base... [more] |
NC2008-162 pp.347-352 |
OFT |
2009-01-23 12:10 |
Kochi |
|
Fabrication of 8ch PLC-DFB-LD hybrid integrated module with active alignment Takeshi Akutsu, Junichi Hasegawa, Kazutaka Nara, Masaki Funabashi, Hideaki Hasegawa, Noriyuki Yokouchi (Furukawa Elec.) OFT2008-86 |
An 8 ch DFB-LD-PLC hybrid module was fabricated with high precision active alignment. The coupling loss between the DFB-... [more] |
OFT2008-86 pp.73-76 |
EA |
2008-09-26 14:30 |
Tokyo |
|
A sensor system for visual disorders used by PVDF Kenji Kobayashi, Wakako Ninomiya, Jun Hasegawa (Takushoku Univ) EA2008-61 |
Infrared sensor system using the pyroelectricity of PVDF has been proposed as walking support device of the visually han... [more] |
EA2008-61 pp.5-10 |
USN, CQ, MoNA (Joint) |
2008-01-24 10:45 |
Shizuoka |
Kenshu Kouryu Center, Actcity Hamamatsu (Shizuoka) |
Proposal of Control Traffic Method for VoIP in Ad-hoc Networks Jun Hasegawa (ATR), Masakatcu Kosuga (Fujitsu KCN), Satoko Itaya, Peter Davis (ATR), Toshihiro Suzuki (Fujitsu KCN), Katsumi Sakakibara (OPU), Ryutaro Suzuki, Sadao Obana (ATR) CQ2007-84 |
There is a problem in adhoc networks that performance can deteriorate when a relay node is shared by two or more traffic... [more] |
CQ2007-84 pp.19-24 |
RCS, AN (Joint) |
2007-08-23 10:00 |
Niigata |
Niigata University |
Evaluation of methods for reducing degradation of communication performance due to heavy traffic in ad hoc networks Jun Hasegawa, Satoko Itaya, Peter Davis (ATR), Katsumi Sakakibara, Jiro Yamakita (OPU), Ryutaro Suzuki, Sadao Obana (ATR) AN2007-18 |
When traffic increases in ad hoc networks, the performance can deteriorate
even before load reaches the maximum capacit... [more] |
AN2007-18 pp.19-24 |
OPE |
2007-05-25 16:25 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Athermal AWG module with extremely low temperature dependence (<+/-5pm) of center wavelength using multi-compensating plates Junichi Hasegawa, Kazutaka Nara (Furukawa Electric) OPE2007-15 |
We successfully fabricated an athermal AWG module with an extremely low temperature dependence using multi-compensating ... [more] |
OPE2007-15 pp.39-42 |