Title :
Training-Aided Frequency-Domain Channel Estimation and Equalization for Single-Carrier Coherent Optical Transmission Systems
Author :
Pittala, Fabio ; Slim, Israa ; Mezghani, Amine ; Nossek, Josef A.
Author_Institution :
Eur. Res. Center, Duesseldorf GmbH, Munich, Germany
Abstract :
Frequency-domain equalization supported by training-aided 2 × 2 multi-input multi-output channel estimation (CE) is proposed for coherent optical transmission systems. In particular, novel training sequence (TS) schemes based on a constant amplitude zero auto-correlation code, efficient CE algorithms and equalizer-tap updating solutions are derived from the theoretical linear fiber channel model and investigated through simulations. The robustness of the proposed methods is demonstrated with respect to the main degrading optical propagation effects, such as amplified spontaneous emission noise, chromatic dispersion, polarization-mode dispersion, polarization-dependent loss, time misalignment between received and reference TS, frequency offset between transmitter and receiver lasers, as well as dynamic state of polarization rotation.
Keywords :
MIMO communication; channel estimation; frequency-domain analysis; optical fibre communication; optical transceivers; superradiance; training; amplified spontaneous emission noise; chromatic dispersion; coherent optical transmission systems; constant amplitude zero auto-correlation code; frequency-domain equalization; optical propagation effects; polarization rotation; polarization-dependent loss; polarization-mode dispersion; single-carrier coherent optical transmission systems; time misalignment; training sequence schemes; training-aided 2 × 2 multiinput multioutput channel estimation; training-aided frequency-domain channel estimation; Equalizers; Noise; Nonlinear optics; Optical polarization; Optical receivers; Optical transmitters; Channel estimation; coherent communications; digital signal processing; equalization; fiber-optics communications; training sequences;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2014.2358933
