TR2016-016
Investigation of low code rate DP-8PSK as an alternative to DP-QPSK
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- , "Investigation of Low Code Rate DP-8PSK as an Alternative to DP-QPSK", Optical Fiber Communication Conference and Exposition (OFC), DOI: 10.1364/OFC.2016.Th1D.2, March 2016.BibTeX TR2016-016 PDF
- @inproceedings{Kojima2016mar,
- author = {Kojima, Keisuke and Koike-Akino, Toshiaki and Millar, David S. and Pajovic, Milutin and Parsons, Kieran and Yoshida, Tsuyoshi},
- title = {Investigation of Low Code Rate DP-8PSK as an Alternative to DP-QPSK},
- booktitle = {Optical Fiber Communication Conference and Exposition (OFC)},
- year = 2016,
- month = mar,
- doi = {10.1364/OFC.2016.Th1D.2},
- isbn = {978-1-943580-07-1},
- url = {https://www.merl.com/publications/TR2016-016}
- }
- , "Investigation of Low Code Rate DP-8PSK as an Alternative to DP-QPSK", Optical Fiber Communication Conference and Exposition (OFC), DOI: 10.1364/OFC.2016.Th1D.2, March 2016.
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MERL Contacts:
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Research Areas:
Abstract:
Low code rate DP-8PSK was studied as an alternative to DP-QPSK for long distance coherent communications. For 4,000 km transmission with multiple link configurations, low code rate DP-8PSK is shown to have 1.6 ! 1.8 dB span loss budget over DP-QPSK for the same spectral efficiency through simulations.
Related News & Events
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AWARD MERL researchers presented 5 papers at the 2016 Optical Fiber Communication Conference (OFC), including one "Top Scored" paper Date: March 24, 2016
Awarded to: Toshiaki Koike-Akino, Keisuke Kojima, David S. Millar, Kieran Parsons, Tsuyoshi Yoshida, Takashi Sugihara
MERL Contacts: Toshiaki Koike-Akino; Kieran Parsons
Research Areas: Communications, Electronic and Photonic Devices, Signal ProcessingBrief- Five papers from the Optical Comms team were presented at the 2016 Optical Fiber Conference (OFC) held in Anaheim, USA in March 2016. The papers relate to enhanced modulation formats, constellation shaping, chromatic dispersion estimation, low complexity adaptive equalization and coding for coherent optical links. The top-scored paper studied optimal selection of coding and modulation sets to jointly maximize nonlinear tolerance and spectral efficiency.