Sato Ken-ichi | Nagoya University
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概要
関連著者
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Sato Ken-ichi
Nagoya University
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HASEGAWA Hiroshi
Nagoya University
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Sato Ken‐ichi
Nagoya Univ. Nagoya Jpn
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SATO Ken-ichi
the NTT Advanced Technology
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KAKEHASHI Shoji
Nagoya University
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MORIWAKI Osamu
NTT Photonics Laboratories, NTT Corporation
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Moriwaki Osamu
Ntt Photonics Laboratories Ntt Corporation
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YAMADA Yoshiyuki
Nagoya University
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Hirano Akira
Ntt Network Innovation Laboratories Ntt Corporation
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Le Hai-chau
Nagoya University
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Sone Yoshiaki
Ntt Network Innovation Laboratories Ntt Corporation
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Sato Ken-ichi
Department Of Agricultural Chemistry The University Of Tokyo:(present Office)nihon Pall Ltd.
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Ishii Kiyo
Department Of Electrical Engineering And Computer Science Nagoya University
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Yamada Yoshiyuki
Department Of Allergy And Immunology Gunma Children's Medical Center
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HIRAKO Ryosuke
Nagoya University
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ISHII Kiyo
Nagoya University
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NARUSE Fumisato
Nagoya University
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Hasegawa Hiroshi
Department Of Adme And Toxicology For Screening Developmental Research Laboratories Shionogi & Co. Ltd.
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JINNO Masahiko
Kagawa University
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SATO Masakazu
KDDI Corporation
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TAKAGI Tatsumi
Nagoya University
著作論文
- Hierarchical optical path network design considering waveband add/drop ratio restriction and network cost analysis on different network parameters (光通信システム)
- Optical Cross-Connect Switch Architectures for Hierarchical Optical Path Networks
- Formulation of Waveguide Connection for Waveband MUX/DEMUX Using Concatenated Arrayed-Waveguide Gratings
- BT-4-5 Prospects and Challenges of Multi-Granular Photonic Networks
- Compact Matrix-Switch-Based Hierarchical Optical Path Cross-Connect with Colorless Waveband Add/Drop Ratio Restriction
- Virtual Fiber Networking and Impact of Optical Path Grooming on Creating Efficient Layer One Services
- Optical Node Architectures That Utilize Dedicated Add/Drop Switches to Realize Colorless, Directionless and Contentionless Capability
- Impact of Elastic Optical Paths That Adopt Distance Adaptive Modulation to Create Efficient Networks
- Efficient Shared Protection Network Design Algorithm that Iterates Path Relocation with New Resource Utilization Metrics