Title :
Sliding window criterion codes and concatenation scheme for mitigating timing-jitter-induced errors in WDM fiber transmissions
Author :
Cai, Yi ; Adali, Tulay ; Menyuk, Curtis R. ; Morris, Joel M.
Author_Institution :
Dept. of Comput. Sci. & Electr. Eng., Maryland Univ., Baltimore, MD, USA
fDate :
2/1/2002 12:00:00 AM
Abstract :
We propose a concatenated coding scheme, which effectively reduces bit errors induced by soliton-soliton collisions (SSC) in wavelength division multiplexing (WDM) soliton transmission systems. A block line coding scheme, the sliding window criterion (SWC) code, is developed based on the nature of SSC-induced timing jitter in soliton communications. We show, by simplified collision model simulations, that the SWC code alone can decrease the SSC-induced timing jitter and, by concatenation to a Reed-Solomon (RS) code, improve both the bit rate and the channel spacing capacity in WDM systems. We compare the performance of our scheme both analytically and by simulations with those of various RS codes and concatenated RS-convolutional code used in optical fiber transmission systems, and show that high redundancy (overhead) does not always give better code performance. Finally, by using full simulations, we show that the SWC code is an effective and promising technique for dispersion-managed fiber WDM systems
Keywords :
Reed-Solomon codes; block codes; concatenated codes; convolutional codes; error statistics; forward error correction; optical fibre communication; optical fibre dispersion; optical solitons; timing jitter; wavelength division multiplexing; Reed-Solomon code; WDM; WDM fiber transmissions; WDM systems; bit errors; bit rate; block line coding scheme; channel spacing capacity; code performance; concatenated coding scheme; concatenation scheme; dispersion-managed fiber WDM systems; mitigating timing-jitter-induced errors; optical fiber transmission systems; performance; simplified collision model simulations; sliding window criterion code; sliding window criterion codes; soliton communications; soliton-soliton collisions; timing jitter; wavelength division multiplexing; wavelength division multiplexing soliton transmission systems; Analytical models; Bit rate; Channel capacity; Channel spacing; Concatenated codes; Performance analysis; Reed-Solomon codes; Solitons; Timing jitter; Wavelength division multiplexing;
Journal_Title :
Lightwave Technology, Journal of
