Title :
Constellation Expansion for 100G Transmission
Author :
Leoni, P. ; Calabro, Stefano ; Lankl, Berthold
Author_Institution :
Inst. fur Informationstechnik, Univ. der Bundeswehr Munchen, Neubiberg, Germany
Abstract :
In this letter, we focus on coherently detected, non differentially encoded, polarisation division multiplexed 100G communication systems; through incorporating phase noise in the channel model, we assess the net coding gain achievable by various constellations that can be used in lieu of the conventional quadrature phase-shift keying (QPSK). Whereas the optical community put much effort into the optimization of the forward error correction codes for QPSK, trying to reduce the gap to the Shannon limit, we show that a potential gain of more than 2 dB is still available if different constellations are adopted.
Keywords :
encoding; multiplexing; optical communication; optical noise; phase noise; phase shift keying; telecommunication channels; QPSK; bit rate 100 Gbit/s; channel model; coherent detection; constellation expansion; net coding gain; nondifferentially encoded communication; phase noise; polarisation division multiplexed communication; quadrature phase shift keying; Adaptive optics; Digital signal processing; Forward error correction; Gain; Optical noise; Phase noise; Phase shift keying; Forward error correction (FEC); channel capacity; coded modulation; coherent detection; constellation expansion; high-order constellations; mutual information;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2013.2277542
