Title :
Enhanced FEC OSNR gains in dispersion-uncompensated 10.7-Gb/s duobinary transmission over 200-km SSMF
Author :
Liu, Xiang ; Zheng, Zheng ; Kaneda, Noriaki ; Wei, Xing ; Tayahi, Moncef ; Movassaghi, Mahan ; Radic, Stojan ; Chandrasekhar, S. ; Levy, David
Author_Institution :
Lucent Technol. Bell Labs, Holmdel, NJ, USA
Abstract :
We report the experimental comparison of 10.7-Gb/s duobinary transmissions using generic Reed-Solomon forward error correction (FEC) and an enhanced FEC. The coding gains of the two FECs after transmission over a dispersion-uncompensated 200-km standard single-mode fiber (SSMF) link are found to be much larger than those quoted in ideal case, with the enhanced FEC further outperforming the generic FEC by /spl sim/3.5 dB. Numerical simulations show reasonable agreement with the experimental results.
Keywords :
Reed-Solomon codes; error statistics; forward error correction; optical fibre communication; 10.7 Gbit/s; 200 km; coding gains; dispersion-uncompensated duobinary transmission; dispersion-uncompensated link; duobinary transmissions; enhanced FEC; enhanced FEC OSNR gain; generic Reed-Solomon forward error correction; standard single-mode fiber; Forward error correction; Nonlinear distortion; Optical distortion; Optical fiber communication; Optical filters; Optical noise; Optical pulse generation; Optical receivers; Optical sensors; Signal to noise ratio;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2003.815319
