Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
LQE, OCS, OPE |
2021-02-18 16:55 |
Online |
Online |
[Special Invited Talk]
High-speed silicon photonic modulator based on forward-biased PIN diodes and passive equalizers Shinsuke Tanaka, Yohei Sobu (Fujitsu/OITDA) OCS2020-40 OPE2020-72 LQE2020-78 |
[more] |
OCS2020-40 OPE2020-72 LQE2020-78 pp.1-4 |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 13:05 |
Online |
Online |
[Invited Talk]
Fiber optic network for next generation in-vehicle communication Okihiro Sugihara (Utsunomiya Univ.) OFT2020-55 OPE2020-75 |
[more] |
OFT2020-55 OPE2020-75 pp.1-4 |
LQE, OCS, OPE |
2021-02-18 17:20 |
Online |
Online |
[Special Invited Talk]
Membrane InGaAsP Electro-absorption Modulator on Si Platform Tatsurou Hiraki, Takuma Aihara, Yoshiho Maeda, Takuro Fujii, Tai Tsuchizawa (NTT), Kiyoto Takahata, Takaaki Kakitsuka (Waseda Univ.), Shinji Matsuo (NTT) OCS2020-41 OPE2020-73 LQE2020-79 |
[more] |
OCS2020-41 OPE2020-73 LQE2020-79 pp.5-9 |
LQE, OCS, OPE |
2021-02-18 17:45 |
Online |
Online |
[Special Invited Talk]
Accommodation of 5G NR Fronthauls and 1,000 IoT Devices by Layer-2 Network with Autonomous Time Aware Shaper Naotaka Shibata (NTT), Paikun Zhu (GPI), Kazuto Nishimura (Fujitsu), Yuki Yoshida (NICT), Kazunori Hayashi (OCU), Masaki Hirota (Fujitsu), Rintaro Harada, Kazuaki Honda, Shin Kaneko, Jun Terada (NTT), Ken-ichi Kitayama (GPI) OCS2020-42 OPE2020-74 LQE2020-80 |
This technical repot reviews the presentation of the ECOC2020 Postdeadline Paper Th3B.3. For beyond 5G, we propose a x-h... [more] |
OCS2020-42 OPE2020-74 LQE2020-80 pp.10-13 |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 14:00 |
Online |
Online |
EDF laser using cascaded-chirped long period fiber grating in sigma configuration and its application to temperature sensing Koken Fukushima, Manuel Guterres Soares, Koki Nakaya, Atsushi Wada, Satoshi Tanaka (NDA), Fumihiko Ito (Shimane Univ.) OFT2020-56 OPE2020-76 |
We have constructed an EDF sigma laser (EDF$sigma$L) that employs a wavelength selection element consisting of a cascade... [more] |
OFT2020-56 OPE2020-76 pp.5-8 |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 14:25 |
Online |
Online |
Calibration of a hetero-core optical fiber three-axis accelerometer with fixed support at both ends Sakura Kiyama, Miyuki Kadokura, Hiroshi Yamazaki, Michiko Nishiyama, Kazuhiro Watanabe (SOKA Univ.) OFT2020-57 OPE2020-77 |
[more] |
OFT2020-57 OPE2020-77 pp.9-12 |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 14:50 |
Online |
Online |
Analysis of microfiber structures for fabricating multimode interference sensors Naoaki Abe, Mitsuru Kihara (OECU) OFT2020-58 OPE2020-78 |
We theoretically investigated microfiber characteristics. We numerically analyzed the transmission characteristics due t... [more] |
OFT2020-58 OPE2020-78 pp.13-16 |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 15:25 |
Online |
Online |
Infrared image transport using transversely disordered optical fibers of tellurite or chalcogenide glasses Asuka Nakatani, Tong Hoang Tuan, Shunei Kuroyanagi (TTI), Morio Matsumoto, Goichi Sakai Goichi (Furukawa Denshi), Takenobu Suzuki, Yasutake Ohishi (TTI) OFT2020-59 OPE2020-79 |
A transversely disordered optical fiber(TDOF) has been proposed in order to overcome the resolution limit of image trans... [more] |
OFT2020-59 OPE2020-79 pp.17-20 |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 15:50 |
Online |
Online |
Photonic generation of wideband electrical PM signal using the Armstrong method Shota Ishimura, Hsuan-Yun Kao, Kazuki Tanaka, Kosuke Nishimura, Ryo Inohara, Takehiro Tsuritani, Masatoshi Suzuki (KDDI Research, Inc.) OCS2020-43 OPE2020-80 |
Recently, there have been several reports on analog-based mobile front haul systems. We have also demonstrated high-fide... [more] |
OCS2020-43 OPE2020-80 pp.1-5(OCS), pp.21-25(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-18 16:15 |
Online |
Online |
Demonstration of light localization in self-similar waveguide arrays Ryo Kikuchi, Takumi Ishikawa, Kohei Haji, Hirohito Yamada, Nobuyuki Matsuda (Tohoku Univ.) OCS2020-44 OFT2020-60 OPE2020-81 |
Mitigating inter-core cross-talks in a closely-packed optical waveguide array is of great importance for increasing the ... [more] |
OCS2020-44 OFT2020-60 OPE2020-81 pp.6-10(OCS), pp.21-25(OFT), pp.26-30(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 09:00 |
Online |
Online |
Vectorial electromagnetic field analysis for circularly-distributed3-core optical fibers Gouta Kobayashi, Naoto Kishi (UEC) OFT2020-61 OPE2020-82 |
In this study, 3-core micro multicore fiber vector-mode are numerically analyzed by using group theory adapted point mat... [more] |
OFT2020-61 OPE2020-82 pp.26-29(OFT), pp.31-34(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 09:25 |
Online |
Online |
The detection method of incoherent light using optical fiber Yuyuan Cheng, Naoto Kishi (UEC) OFT2020-62 OPE2020-83 |
In a visible light communication system, detection of diverged optical signal in space is required after confirming the ... [more] |
OFT2020-62 OPE2020-83 pp.30-33(OFT), pp.35-38(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 09:50 |
Online |
Online |
OFT2020-63 OPE2020-84 |
We verified the characteristics of the optical variable delay line based on optical Fourier-transformation using cross-p... [more] |
OFT2020-63 OPE2020-84 pp.34-37(OFT), pp.39-42(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 10:25 |
Online |
Online |
Theoretical Investigation on the Performance of an Amplified-Spontaneous-Emission Feedback Circuit in Optical Power Measurement Hiroji Masuda, Biswajit Biswas (Shimane Univ.) OFT2020-64 OPE2020-85 |
The optical power resolution (OPR) is one of the most important parameters of a photodetector in optical measurement/sen... [more] |
OFT2020-64 OPE2020-85 pp.38-43(OFT), pp.43-48(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 10:50 |
Online |
Online |
Ultrafast measurement of complex modulation over entire C-band by using linear optical sampling Sougo Shimizu, Kaito kadobe, Fumihiko Ito (Shimane Univ.) OFT2020-65 OPE2020-86 |
[more] |
OFT2020-65 OPE2020-86 pp.44-49(OFT), pp.49-54(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 11:15 |
Online |
Online |
Optimization of Optical Access Network Design for Beyond 5G Shingo Ohno, Chihiro Kito, Kunihiro Toge, Shigekatsu Tetsutani, Shoichi Furujo (NTT) OFT2020-66 OPE2020-87 |
This paper describes optical access network design for beyond 5G and its optimum design parameters. While conventional o... [more] |
OFT2020-66 OPE2020-87 pp.50-53(OFT), pp.55-58(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 11:40 |
Online |
Online |
Proposal of Remote Operated Optical Fiber Switching Node for Future Optical Access Network Tatsuya Fujimoto, Kawano Tomohiro, Kazuhide Nakae, Hiroshi Watanabe, Kazunori Katayama (NTT) OFT2020-67 OPE2020-88 |
We are studying concatenated loop topology as optical access network for beyond 5G with excellent reliability, tolerance... [more] |
OFT2020-67 OPE2020-88 pp.54-57(OFT), pp.59-62(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 13:00 |
Online |
Online |
[Invited Talk]
Displacement measurement based on fiber optic system Yosuke Tanaka (Tokyo Univ. of Agir. and Tech.) OFT2020-68 OPE2020-89 |
The optical systems including optical interferometers and intensity correlators play an important role in optical measur... [more] |
OFT2020-68 OPE2020-89 pp.58-61(OFT), pp.63-66(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 13:55 |
Online |
Online |
Application of distributed vibration sensing based on frequency-division-multiplex phase OTDR to monitoring an installed aerial optical fiber cable state Yoshifumi Wakisaka, Daisuke Iida, Tatsuya Okamoto, Yusuke Koshikiya, Nazuki Honda (NTT) OFT2020-69 OPE2020-90 |
Researches on distributed vibration sensing (DVS) to closely visualize optical fiber cable states have been developed fo... [more] |
OFT2020-69 OPE2020-90 pp.62-65(OFT), pp.67-70(OPE) |
OPE, OCS, OFT (Joint) [detail] |
2021-02-19 14:20 |
Online |
Online |
Advanced optical fiber line testing system technologies for access network Yoshitaka Enomoto (NTT) OFT2020-70 OPE2020-91 |
We have developed optical fiber line testing system (AURORA) which can reduce construction and maintenance cost and impr... [more] |
OFT2020-70 OPE2020-91 pp.66-71(OFT), pp.71-76(OPE) |