Sotobayashi H | Information And Communication Systems Division Communications Research Laboratory
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概要
- SOTOBAYASHI Hideyukiの詳細を見る
- 同名の論文著者
- Information And Communication Systems Division Communications Research Laboratoryの論文著者
関連著者
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Sotobayashi H
Information And Communication Systems Division Communications Research Laboratory
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Chujo W
Strategic Planning Division Communications Research Laboratory
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Inoue J
Information And Communication Systems Division Communications Research Laboratory
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INOUE Jun
Information and Communication Systems Division, Communications Research Laboratory
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SOTOBAYASHI Hideyuki
Information and Communication Systems Division, Communications Research Laboratory
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CHUJO Wataru
Strategic Planning Division, Communications Research Laboratory
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KAWAGUCHI Hitoshi
Faculty of Engineering, Yamagata University
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Kawaguchi H
Yamagata Univ. Yamagata Jpn
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Kawaguchi Hitoshi
Faculty Of Engineering Yamagata University
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SOTOBAYASHI Hideyuki
Communications Research Laboratory, Ministry of Posts and Telecommunications
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KITAYAMA Ken-ichi
Department of Electronic and Information Systems, Osaka University
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Sotobayashi H
Communications Res. Lab. Ministry Of Posts And Telecommunications Tokyo Jpn
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Sotobayashi Hideyuki
Communications Research Laboratory Ministry Of Posts And Telecommunications
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Wada N
Communications Research Laboratory Ministry Of Posts And Telecommunications Of Japan
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Chujo Wataru
Basic And Advanced Research Division Crl
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WADA Naoya
Communications Research Laboratory, Ministry of Posts and Telecommunications of Japan
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INOUE Jun
Basic and Advanced Research Div. of Communications Research Laboratory
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SOTOBAYASHI Hideyuki
Basic and Advanced Research Div. of Communications Research Laboratory
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Wada Naoya
Communications Research Laboratory
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Kitayama Ken-ichi
Department Of Electronics And Information Systems Osaka University
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Kitayama Ken-ichi
Department Of Electronic And Information Systems Osaka University
著作論文
- Optical Code Division Multiplexing (OCDM) and Its Applications to Photonic Networks (Special Section on Spread Spectrum Techniques and Applications)
- 80 Gbit/s Conventional and Carrier-Suppressed RZ Signals Transmission over 200 km Standard Fiber by Using Mid-Span Optical Phase Conjugation(The IEICE Transactions on Communications, Vol.E86-B, No.5)
- 80 Gbit/s Conventional and Carrier-Suppressed RZ Signals Transmission over 200 km Standard Fiber by Using Mid-Span Optical Phase Conjugation ( Recent Progress in Optoelectronics and Communications)
- Sub-Picosecond Transform-Limited 160 Gbit/s Optical Pulse Compression Using Supercontinuum Generation