Author Info
Name
Affiliation
Papers
TSUYOSHI YOSHIDA
Opt. Commun. Technol. Dept., Inf. Technol. R&D Center, Mitsubishi Electr. Corp., Kamakura, Japan|c|
17
Collaborators
Citations 
PageRank 
27
6
5.94
Referers 
Referees 
References 
24
53
17
Title
Citations
PageRank
Year
Multilevel Coding with Flexible Probabilistic Shaping for Rate-Adaptive and Low-Power Optical Communications00.342020
On the Performance under Hard and Soft Bitwise Mismatched-Decoding00.342020
Experimental Comparison of Pulse Position and Hamming-Coded Modulations for High Sensitivity Coherent FSO Communications.00.342019
Efficient Offline Evaluation Of Fec Codes Based On Captured Data With Probabilistic Shaping00.342018
Technologies Toward Implementation of Probabilistic Constellation Shaping00.342018
11.5 bits/s/Hz PM-256QAM Comb-Based Superchannel Transmission by Combining Optical and Digital Pilots00.342018
Low-Complexity Variable-Length Output Distribution Matching With Periodical Distribution Uniformalization00.342018
Comparison of Nonlinearity Tolerance of Modulation Formats for Subcarrier Modulation00.342018
Hierarchical Distribution Matching for Probabilistically Shaped Coded Modulation.50.512018
Fully-Parallel Soft-Decision Cycle Slip Recovery00.342017
Post-FEC BER Prediction Accuracy for Probabilistically Shaped Signaling in Fiber-Optic Communications00.342017
Nonlinearity-Tolerant Time Domain Hybrid Modulation For 4-8 Bits/Symbol Based On 2a8psk00.342017
Simple frequency-domain hybrid-QAM superchannel with path-fitted pre-filtering and collaborative-subcarrier frequency self-tuning for flexible ROADM systems00.342017
A Novel Post-Probabilistically-Shaped Pam Signaling As A Channel Coding For Efficient Optical Communications00.342017
Frequency-domain hybrid N × 100 Gb/s regular QAMs for simple, scalable, and transparent software-defined optical transport00.342017
Performance Metrics for Systems with Soft-Decision FEC and Probabilistic Shaping.00.342017
Cycle Slip Compensation with Polarization Block Coding for Coherent Optical Transmission: Two-dimensional phases constellation corresponds to a slip state10.372014