2D geometrically shaped constellations that are simultaneously robust to both residual phase noise and AWGN (GS-RPN) for 8, 16, 32 and 64-ary formats. The presented formats are optimised at the generalised mutual information (GMI) threshold of 0.96m bits/symbol, where m is the number of bits per symbol. Additionally, we added AWGN-only constellations (GS-AWGN) to serve as a reference.

 

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[1] Hubert Dzieciol, "Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise", IEEE Dataport, 2020. [Online]. Available: http://dx.doi.org/10.21227/hny8-2h97. Accessed: Apr. 24, 2024.
@data{hny8-2h97-20,
doi = {10.21227/hny8-2h97},
url = {http://dx.doi.org/10.21227/hny8-2h97},
author = {Hubert Dzieciol },
publisher = {IEEE Dataport},
title = {Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise},
year = {2020} }
TY - DATA
T1 - Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise
AU - Hubert Dzieciol
PY - 2020
PB - IEEE Dataport
UR - 10.21227/hny8-2h97
ER -
Hubert Dzieciol. (2020). Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise. IEEE Dataport. http://dx.doi.org/10.21227/hny8-2h97
Hubert Dzieciol, 2020. Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise. Available at: http://dx.doi.org/10.21227/hny8-2h97.
Hubert Dzieciol. (2020). "Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise." Web.
1. Hubert Dzieciol. Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise [Internet]. IEEE Dataport; 2020. Available from : http://dx.doi.org/10.21227/hny8-2h97
Hubert Dzieciol. "Geometric Shaping of 2-Dimensional Constellations in the Presence of Laser Phase Noise." doi: 10.21227/hny8-2h97