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Proceedings Paper

LDPC-coded modulation for beyond 100-Gb/s optical transmission
Author(s): Ivan B. Djordjevic
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Paper Abstract

The future Internet traffic growth will require deployment of optical transmission systems with bit rates higher than rate of currently available 40-Gb/s systems, such as 100-Gb/s and above. However, at data rates beyond 100-Gb/s the signal quality is significantly degraded mainly due to impact of polarization mode dispersion (PMD), and intra-channel nonlinear effects. All electrically time-division multiplexed (ETDM) multiplexers and de-multiplexers operating at ~100-Gb/s are becoming commercially available. However, the modulators operating ~100-Gb/s are not widely available so that alternative approaches to enable 100-Gb/s transmission and beyond using commercially available components operating at 40-Gb/s are of high practical importance. In this invited paper, several joint coded-modulation and multiplexing schemes enabling beyond 100-Gb/s transmission using commercially available components operating at 40-Gb/s are presented. Using this approach, modulation, coding and multiplexing are performed in a unified fashion so that, effectively, the transmission, signal processing, detection and decoding are done at much lower symbol rates, where dealing with the nonlinear effects and PMD is more manageable, while the aggregate data rate is maintained above 100-Gb/s. The main elements of our approach include: (i) bit-interleaved LDPC-coded modulation, (ii) multilevel coding (MLC) with LPDC component codes, and (iii) LDPC-coded orthogonal frequency division multiplexing (OFDM). The modulation formats of interest in this paper are M-ary quadrature-amplitude modulation (QAM) and Mary phase-shift keying (PSK), where M=2,...,16, both combined with either Gray or natural mapping rule. It will be shown that coherent detection schemes significantly outperform direct detection ones and provide an additional margin that can be used either for longer transmission distances or for application in an all-optical networks.

Paper Details

Date Published: 10 September 2007
PDF: 14 pages
Proc. SPIE 6774, Optical Transmission Systems and Equipment for Networking VI, 677409 (10 September 2007); doi: 10.1117/12.747675
Show Author Affiliations
Ivan B. Djordjevic, The Univ. of Arizona (United States)


Published in SPIE Proceedings Vol. 6774:
Optical Transmission Systems and Equipment for Networking VI
Werner Weiershausen; Benjamin B. Dingel; Achyut Kumar Dutta; Ken-ichi Sato, Editor(s)

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