IEICE Technical Committee Submission System
Conference Schedule
Online Proceedings
[Sign in]
Tech. Rep. Archives
    [Japanese] / [English] 
( Committee/Place/Topics  ) --Press->
( Paper Keywords:  /  Column:Title Auth. Affi. Abst. Keyword ) --Press->

All Technical Committee Conferences  (Searched in: All Years)

Search Results: Conference Papers
 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 51  /  [Next]  
Committee Date Time Place Paper Title / Authors Abstract Paper #
(Joint) [detail]
Online Online Evaluation of bending displacement characteristics for a 50-3-50 type hetero-core structured optical fiber sensor
Miyuki Kadokura, Michiko Nishiyama, Kazuhiro Watanabe (Soka Univ.) OFT2021-70 OPE2021-49
In this study, we aim to realize the application of a hetero-core optical fiber bending sensor, which consists of a mult... [more] OFT2021-70 OPE2021-49
OPE, LQE 2020-11-20
Online Online Design of InP-based membrane waveguide on Si substrate toward low propagation loss and high-efficiency coupling with laser
Weiqi Wang, Eissa Moataz, Weicheng Fang, Naoki Takahashi, Yoshitaka Oiso, Tomohiro Amemiya, Nobuhiko Nishiyama (Tokyo Tech) OPE2020-48 LQE2020-28
In this report, structure dependence of characteristics of membrane waveguides were investigated. The comparison of the ... [more] OPE2020-48 LQE2020-28
EMD 2020-07-17
Hokkaido Chitose-Arcadia-Plaza Study on fiber-optic strain sensor (2)
Ryota Kuramochi, Shogo Ito, Kentaro Matuda, Ryo Nagase (CIT) EMD2020-3
In the industrial field, there are many types of electrical remote sensing technology that use strain gauges. However, s... [more] EMD2020-3
LQE, OPE, CPM, EMD, R 2019-08-23
Miyagi   Polarization dependent loss of fiber optic strain gauge
Ryota Kuramochi, Kentaro Matsuda, Ryo Nagase (CIT) R2019-34 EMD2019-32 CPM2019-33 OPE2019-61 LQE2019-39
In the industrial field, there are many types of electrical remote sensing technology that use strain gauges. However, s... [more] R2019-34 EMD2019-32 CPM2019-33 OPE2019-61 LQE2019-39
EMD 2019-03-01
Tokyo   Study on fiber-optic strain sensor
Ryota Kuramochi, Kentaro Matsuda, Ryo Nagase (CIT) EMD2018-62
In the industrial field, there are many types of electrical remote sensing technology that use strain gauges. However, s... [more] EMD2018-62
OFT 2017-10-13
Kochi Kochi Prefectural Culture Hall Variable Photonic Crystal Fiber Optical Attenuator Using Bending Loss
Hirohisa Yokota, Tomohiko Sano, Yoh Imai (Ibaraki Univ.) OFT2017-43
Recently, an importance of optical attenuator has increased in fiber optic communication systems because an optical powe... [more] OFT2017-43
OFT 2017-05-25
Shimane Shimane Univ. (Matsue campus) [Poster Presentation] Evaluation method of bending loss in LP11 mode of two-mode fiber
Masaaki Taruno, Hirokazu Kubota, Masaharu Ohashi, Yuji Miyoshi (Osaka Pref. Univ.) OFT2017-13
The technique for estimating the bending radius dependence of bending loss of LP11mode in a two-mode fiber is proposed. ... [more] OFT2017-13
OCS, OPE 2017-05-12
Tokyo Kikai-Shinko-Kaikan Bldg(Tokyo) [Special Invited Talk] Lowest-Ever 0.1419-dB/km Loss Optical Fiber
Yoshiaki Tamura, Hirotaka Sakuma, Keisei Morita, Masato Suzuki, Yoshinori Yamamoto, Kensaku Shimada, Yuya Honma, Kazuyuki Sohma, Takashi Fujii, Takemi Hasegawa (Sumitomo Electric) OCS2017-9 OPE2017-9
This technical report reviews the OFC2017 postdeadline paper Th5D.1. Lowest-ever 0.1419 dB/km loss at 1560 nm wavelength... [more] OCS2017-9 OPE2017-9
OPE, EST, LQE, EMT, PN, MWP, IEE-EMT [detail] 2017-01-19
Mie Iseshi Kanko Bunka Kaikan Consideration of effects of a core location on bend losses in a buried waveguide
Hiroto Watanabe, Yuta Nito, Junji Yamauchi, Hisamatsu Nakano (Hosei Univ.) PN2016-77 EMT2016-106 OPE2016-152 LQE2016-141 EST2016-116 MWP2016-90
This paper describes the effects of a core depth on the pure bend loss in a buried waveguide whose core is placed near a... [more] PN2016-77 EMT2016-106 OPE2016-152 LQE2016-141 EST2016-116 MWP2016-90
EMT, IEE-EMT 2016-11-17
Wakayama Shirahama Coganoi Resort & Spa Transmission Characteristics of Silica Core Optical Fibers with Layered Refractive Index Profiles
Yoshiki Minami, Takahisa Yamashita, Shinichi Furukawa (Nihon Univ.) EMT2016-42
In this paper, transmission characteristics of silica core optical fibers with quadruple clad are investigated. Silica c... [more] EMT2016-42
US 2016-02-29
Tokyo Instiute of Industrial Science, the University of Tokyo Magnetic sensor with a polymer-based vibrator
Jiang Wu, Kazuhiko Hasebe, Yosuke Mizuno, Marie Tabaru, Kentaro Nakamura (Tokyo Tech.) US2015-110
A magnetic sensor using a polymer-based vibrator with a large dynamic range and high resolution has been developed for s... [more] US2015-110
OFT 2015-12-11
Tokyo The University of Electro-Communications (Tokyo) Identification of loss factors using 1-um-band mode-detection OTDR
Atsushi Nakamura, Keiji Okamoto, Yusuke Koshikiya, Tetsuya Manabe, Manabu Oguma, Toshikazu Hashimoto, Mikitaka Itoh (NTT) OFT2015-48
Optical fiber cables exposed to long-term severe environmental conditions can cause loss increases due to deterioration.... [more] OFT2015-48
EMT, IEE-EMT 2015-10-29
Miyazaki Holiday Inn ANA Resort Miyazaki Transmission Characteristics for Optical Fibers with Layered Refractive Index Profiles -- The case with lower refractive index area at the center of a core --
Yoshiki Minami, Masamitsu Ohtomo, Shinichi Furukawa (Nihon Univ.) EMT2015-60
In this paper, transmission characteristics of optical fibers with a layered refractive index profile with lower refract... [more] EMT2015-60
Ishikawa   A study of hole assisted type thin cladding fiber
Yukihiro Goto, Kazuhide Nakajima, Chisato Fukai, Kotaro Saito, Toshio Kurashima (NTT) OFT2015-11
We examined the relationship between cladding diameter and cutoff wavelength on hole assisted optical fiber(HAF). We sho... [more] OFT2015-11
(Joint) [detail]
Kagoshima   Aeff Enlarged Pure-Silica-Core Fiber Applicable for L-band Transmission
Yuki Kawaguchi, Yoshinori Yamamoto, Tetsuya Haruna, Yoshiaki Tamura, Masaaki Hirano (Sumitomo Electric) OCS2014-122 OPE2014-231
In order to improve OSNR, low attenuation and low nonlinearity fibers are demanded for ultra-long haul and high capacity... [more] OCS2014-122 OPE2014-231
pp.109-113(OCS), pp.157-161(OPE)
OFT 2015-01-22
Miyazaki   Fiber Macrobending Radius Estimation Method by Two-Wavelength Unidirectional OTDR Measurement
Shiro Ryu (SoftBank Telecom) OFT2014-45
Macrobending of optical fibers might affect the transmission system performance if the induced loss becomes large. So, ... [more] OFT2014-45
OME, OPE 2014-11-21
Tokyo   Bend insensitive graded index multimode polymer optical waveguides fabricated using the Mosquito method
Asami Takahashi, Takaaki Ishigure (Keio Univ.) OME2014-49 OPE2014-129
In this paper, we fabricate low-loss graded index (GI) circular core multimode polymer optical waveguides with 90°bendin... [more] OME2014-49 OPE2014-129
Hokkaido Kushiro Royal Inn A study of transmission characteristics of spiral optical cable
Yukihiro Goto, Chisato Fukai, Kotaro Saito, Kazuhide Nakajima, Toshio Kurashima (NTT) OFT2014-17
An optical fiber cable with connector enables us to realize an easy optical wiring. However, the optical cable with pre-... [more] OFT2014-17
Hokkaido Kushiro Royal Inn Highly sensitive detection of fiber bending using 1-μm-band mode detection OTDR
Atsushi Nakamura, Keiji Okamoto, Yusuke Koshikiya, Nobutomo Hanzawa, Kazunori Katayama, Tetsuya Manabe (NTT) OFT2014-18
Fiber bending can cause troubles in the optical networks due to a fiber loss increase. The potential fault location such... [more] OFT2014-18
OFT 2014-05-29
Yamagata   High Performance Polarization-Maintaining Optical Fiber
Kazuyuki Hayashi, Katsuaki Izoe, Kazuhiko Aikawa, Manabu Kudoh (Fujikura) OFT2014-6
Two type of high performance polarization-maintaining optical fibers have been developed. First one is ultra bend-insens... [more] OFT2014-6
 Results 1 - 20 of 51  /  [Next]  
Choose a download format for default settings. [NEW !!]
Text format pLaTeX format CSV format BibTeX format
Copyright and reproduction : All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034)

[Return to Top Page]

[Return to IEICE Web Page]

The Institute of Electronics, Information and Communication Engineers (IEICE), Japan