"Shin Takano,Hiroyuki Uenohara","Low Complexity Digital Backpropagation with Field Intensity Averaging for 10-channel-Nyquist-WDM 16QAM Signal","the 25rd Optolectronics and Communication Conference (OECC2020)",,,,,,2020,Sept.
"上野信明,植之原裕行","ニューラルネットワーク導入による長距離伝送光受信信号の復調性能検討(学習データによる汎化性能)","２０２０年電子情報通信学会ソサイエティ大会",,,,,,2020,Sept.
"小原日向,植之原裕行","DP-16QAM信号に対する光非線形歪補償用逆伝達関数法の 適用条件の検討","２０２０年電子情報通信学会ソサイエティ大会",,,,,,2020,Sept.
"山下 孝史,植之原裕行","シリコンフォトニクス光コム集積回路実現に向けたリング共振器内コム広帯域化の検討","２０２０年電子情報通信学会ソサイエティ大会",,,,,,2020,Sept.
"Kohei Shimosawa,Hiroyuki Uenohara","Subchannel-Drop and Add Operation by Using Silicon Photonic All-Optical Orthogonal Frequency Division Multiplexing Demultiplexers",,"Optics letters",,"vol. 45","no. 14","pp. 3852-3855",2020,July
"Shun Matsuo,Hiroyuki Uenohara","Investigation of Pump Light Generation Methods and Precise All-Optical FWM Wavelength Conversion for Wavelength Defragmentation",,"IEICE Communications Express","IEICE","Vol. 9","No. 8","pp. 383-388",2020,June
"Takahiro Arai,Hiroyuki Uenohara","Polarization-Diversity Silicon Photonic Mach?Zehnder Delay Interferometer for Optical Signal Processing Integrated with a Phase-Controllable Polarization Beam Splitter",,"IEICE Electronics Express","IEICE","vol. 17","no. 12",,2020,June
"Shin Takano,Hiroyuki Uenohara","Low-Complexity DBP using optical-field-Intensity Averaging for digital coherent system",,"IEICE Communications Express","IEICE","Vol. 9","No. 8","pp. 394-399",2020,June
"Masashi Yamazaki,Kazunori Seno,Toshikazu Hashimoto,Hiroyuki Uenohara","Experimental Investigation of Wavelength Conversion using Highly-Nonlinear Fiber and Two-Stage-Comb-Generated Pump with High Frequency Precision",,"Journal of Lightwave Technology","IEEE","Vol. 38","No. 8","pp. 2219-2225",2020,Apr.
"小原日向,植之原裕行","非線形歪補償用逆伝達関数法におけるサンプリング数・量子化ビット数条件の検討","２０２０年電子情報通信学会総合大会",,,,,,2020,Mar.
"高野 真,植之原裕行","WDM信号に対する強度平均化DBPによる光非線形補償性能の検討","２０２０年電子情報通信学会総合大会",,,,,,2020,Mar.
"Yohei AIKAWA,Hiroyuki UENOHARA","Investigation for achievable net coding gain of optical FEC coding with convolutional code using optical XOR gates based on FWM in HNLF",,"IET Optoelectronics","The Institution of Engineering and Technology","vol. 14","no. 1","pp. 22-29",2020,Feb.