Online edition: ISSN 2432-6380
[TOP] | [2016] | [2017] | [2018] | [2019] | [2020] | [2021] | [2022] | [Japanese] / [English]
OCS2019-10
Sub-Picosecond Optical Switch over Entire C-Band by Using Nonlinear Optical Loop Mirror
Ryoya Hirata, Toshihiko Hirooka, Masato Yoshida, Masataka Nakazawa (Tohoku Univ.)
pp. 1 - 4
OCS2019-11
GAWBS noise characteristics in digital coherent transmission in various optical fibers
Naoya Takefushi, Masato Yoshida, Keisuke Kasai, Toshihiko Hirooka, Masataka Nakazawa (Tohoku Univ.)
pp. 5 - 10
OCS2019-12
Statistical characteristics of modal coupling at multiple connections of weakly coupled 10 mode fibers
Gen Kawabata, Koji Igarashi (Osaka Univ.)
pp. 11 - 15
OCS2019-13
Overestimation of Artificial Neural Network and Volterra Series Transfer Function in PRBS Based Signal Quality Evaluation
Kai Ikuta, Yuta Otsuka, Yuta Fukumoto, Moriya Nakamura (Meiji Univ.)
pp. 17 - 20
OCS2019-14
Reduction of Computational-Complexity of VSTF and ANN for Optical Nonlinearity Compensation
Yuta Otsuka, Yuta Fukumoto, Moriya Nakamura (Meiji Univ.)
pp. 21 - 24
OCS2019-15
A Numerical Study on Receiver Sensitivity Degradation of Stokes Vector Modulation Signals
Ryo Suzuki, Kariyawasam Indipalage Amila Sampath, Joji Maeda (TUS)
pp. 25 - 29
OCS2019-16
Quantum theory of Stokes vector receivers
Kazuro Kikuchi (NIAD-QE)
pp. 31 - 36
OCS2019-17
Phase stable Analog RoF transmission with Commercially available digital optical transceiver
Akihiro Fujie, Tomohiro Akiyama, Junya Nishioka, Eisuke Haraguchi, Toshiyuki Ando (MELCO)
pp. 37 - 41
OCS2019-18
255Gb/s PAM-8 O-band transmission using MLSE based on nonlinear channel estimation with 20-GHz bandwidth limitation.
Hiroki Taniguchi, Shuto Yamamoto, Masanori Nakamura, Yoshiaki Kisaka (NTT)
pp. 43 - 46
OCS2019-19
50.4 Tbit/s, L-band 480 ch-WDM, 128 QAM-160 km digital coherent optical transmission using an injection-locked homodyne receiver
Takashi Kan, Keisuke Kasai, Masato Yoshida, Toshihiko Hirooka, Masataka Nakazawa (Tohoku Univ.)
pp. 47 - 50
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.