WDM CODING FOR HIGH-CAPACITY LIGHTWAVE SYSTEMS

An interchannel parallel coding scheme in the wavelength domain-the WD M coding system-is proposed. The system differs from the usual serial coding systems and provides many advantages. First, data channels are completely unaltered in the coding process, rendering it very suitable for practical lightwave systems with standard bit rate. Second, paral lel encoding/decoding systems are simpler than those of serial coding systems, being easier to be implemented in high-speed optical systems. Third, compared with serial coding, WDM coding is able to reduce heav ily the number of encoding/decoding pairs. For example, a (15, 11) Ham ming coded WDM system reduces the number from 12 x 11 = 132 to 1 at th e line rate of STS-12. Fourth, the WDM coding system could offer infin ite coding gain in dispersion-limited lightwave systems. Finally, WDM coding systems could correct single-channel burst error. The system pe rformance was evaluated and the system limitation imposed by bit-skew among wavelength channels was analyzed. The results indicated that a 1 5-channel Hamming coded WDM system can reduce the uncoded BER from 10( -9) to 3 x 10(-17) and the distance limitation imposed by bit-skew is 250 km if a dispersion-shifted fiber is used and a channel span of 30 nm is assumed