The improved three novel schemes of the super forward error correction (super-FEC) concatenated codes are proposed after the development trend of long-haul optical transmission systems and the defects of the existin...The improved three novel schemes of the super forward error correction (super-FEC) concatenated codes are proposed after the development trend of long-haul optical transmission systems and the defects of the existing FEC codes have been analyzed. The performance simulation of the Reed-Solomon(RS)+ Bose-Chaudhuri-Hocguenghem(BCH) inner-outer serial concatenated code is implemented and the conceptions of encoding/decoding the parallel-concatenated code are presented. Furthermore, the simulation results for the RS(255,239) +RS(255,239) code and the RS(255,239) +RS(255,223) code show that the two consecutive concatenated codes are a superior coding scheme with such advantages as the better error correction, moderate redundancy and easy realization compared to the classic RS(255,239) code and other codes, and their signal to noise ratio gains are respectively 2-3 dB more than that of the RS(255,239)code at the bit error rate of 1 × 10^-13. Finally, the frame structure of the novel consecutive concatenated code is arranged to lay a firm foundation in designing its hardware.展开更多
A new concatenated code of RS(255,239)+BCH(2 040,1 930) code to he suitable for WDM optical transmission systems is proposed. The simulation resuhs show that this new concatenated code. compared with the RS(255,...A new concatenated code of RS(255,239)+BCH(2 040,1 930) code to he suitable for WDM optical transmission systems is proposed. The simulation resuhs show that this new concatenated code. compared with the RS(255,239)4-CSOC(k0/n0=6/7, J= 8) code in ITU-TG. 75.1, has a lower redundancy and better error-correction performance, furthermore, its net coding gain(NCG) is respectively 0. 46 dB, 0.43 dB morethanthatofRS(255,239)+CSOC(k0/n0= 6/7, J= 8) code and BCH(3860,3824)+BCH (2 040,1 930) code in ITU TG. 75. 1 at the third iteration for the bit error rate(BER) of 10^-12. Therefore, the new super forward error correction(Super-FEC) concatenated code can be better used in ultra long-haul, ultra large-capacity and ultra high-speed WDM optical communication systems.展开更多
文摘The improved three novel schemes of the super forward error correction (super-FEC) concatenated codes are proposed after the development trend of long-haul optical transmission systems and the defects of the existing FEC codes have been analyzed. The performance simulation of the Reed-Solomon(RS)+ Bose-Chaudhuri-Hocguenghem(BCH) inner-outer serial concatenated code is implemented and the conceptions of encoding/decoding the parallel-concatenated code are presented. Furthermore, the simulation results for the RS(255,239) +RS(255,239) code and the RS(255,239) +RS(255,223) code show that the two consecutive concatenated codes are a superior coding scheme with such advantages as the better error correction, moderate redundancy and easy realization compared to the classic RS(255,239) code and other codes, and their signal to noise ratio gains are respectively 2-3 dB more than that of the RS(255,239)code at the bit error rate of 1 × 10^-13. Finally, the frame structure of the novel consecutive concatenated code is arranged to lay a firm foundation in designing its hardware.
基金National High Technology Development Program(863) of China (2005AA123730) Natural Science Foundation of Chongqing University of Posts & Telecommunications(A2006 -53)
文摘A new concatenated code of RS(255,239)+BCH(2 040,1 930) code to he suitable for WDM optical transmission systems is proposed. The simulation resuhs show that this new concatenated code. compared with the RS(255,239)4-CSOC(k0/n0=6/7, J= 8) code in ITU-TG. 75.1, has a lower redundancy and better error-correction performance, furthermore, its net coding gain(NCG) is respectively 0. 46 dB, 0.43 dB morethanthatofRS(255,239)+CSOC(k0/n0= 6/7, J= 8) code and BCH(3860,3824)+BCH (2 040,1 930) code in ITU TG. 75. 1 at the third iteration for the bit error rate(BER) of 10^-12. Therefore, the new super forward error correction(Super-FEC) concatenated code can be better used in ultra long-haul, ultra large-capacity and ultra high-speed WDM optical communication systems.
