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Disambiguation of "Nakamura, Hirotaka"

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Disaggregation of Time-Critical Applications in Flexible Access System Architecture Invited.

, , , , , , and . JOCN, 11 (1): A33-A39 (2019)

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Shin'ichiro Nakamura

Hirotaka Wakatsuki

Hirotaka Yoshida

Makoto Nakamura

Akira Nakamura

 

Other publications of authors with the same name

Auditory Brain Computer Interface Using Neural Network., , and . GCCE, page 519-523. IEEE, (2018)Wavelength-aggregation Scheme with Delay-based Frame Distribution Technique for Incrementally Upgrading TWDM-PON toward 5G Beyond., , , and . APCC, page 367-372. IEEE, (2019)Brain Computer Interface Using Modulation of Auditory Steady-State Response with Help of Stochastic Resonance*., , and . EMBC, page 2028-2031. IEEE, (2018)A 25G Burst-mode Receiver with -27.7-dBm Sensitivity and 150-ns Response-Time for 50G-EPON Systems., , , , , , , and . ECOC, page 1-3. IEEE, (2020)NG-PON2 Demonstration with Small Delay Variation and Low Latency for 5G Mobile Fronthaul., , , , , , , and . ECOC, page 1-3. IEEE, (2017)40-km reach symmetric 40-Gbit/s λ-tunable WDM/TDM-PON using synchronized gain-clamping SOA., , , , , , , , , and . OFC/NFOEC, page 1-3. IEEE, (2013)Predictive Bandwidth Allocation Scheme With Traffic Pattern and Fluctuation Tracking for TDM-PON-Based Mobile Fronthaul., , , , , and . IEEE J. Sel. Areas Commun., 36 (11): 2508-2517 (2018)Noise-assisted auditory brain computer interface., , and . GCCE, page 1-5. IEEE, (2017)Low-latency routing for fronthaul network: A Monte Carlo machine learning approach., , , , , , and . ICC, page 1-6. IEEE, (2017)Ultra Fast Response AC-Coupled Burst-Mode Receiver with High Sensitivity and Wide Dynamic Range for 10G-EPON System., , , , and . IEICE Trans. Commun., 94-B (7): 1845-1852 (2011)