Title :
On the Irregular Nonbinary QC-LDPC-Coded Hybrid Multidimensional OSCD-Modulation Enabling Beyond 100 Tb/s Optical Transport
Author :
Djordjevic, Ivan B.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Arizona, Tucson, AZ, USA
Abstract :
As a solution to limited bandwidth and high energy consumption of information infrastructure as well as heterogeneity of optical networks, a hybrid multidimensional coded modulation scheme is proposed employing all available electrical and optical degrees of freedom. Electrical basis functions are based on either modified orthogonal polynomials or prolate spheroidal wave functions, while optical ones on polarization and spatial mode states. The proposed scheme is both multi-Tb/s and beyond 100 Tb/s enabling technology. Additionally, the proposed scheme provides the adaptive, software-defined, and dynamic allocation of bandwidth with fine granularity. The adaptive coding is based on irregular nonbinary quasi-cyclic LDPC codes, providing record net coding gains.
Keywords :
adaptive optics; light polarisation; local area networks; optical communication; optical modulation; parity check codes; wave functions; adaptive coding; adaptive optics; bit rate 100 Tbit/s; dynamic allocation; electrical degree-of-freedom; fine granularity; high energy consumption; information infrastructure; irregular nonbinary QC-LDPC-coded hybrid multidimensional OSCD-modulation; limited bandwidth; modified orthogonal polynomials; optical degree-of-freedom; optical ethernet; optical network heterogeneity; optical transport; polarization mode state; prolate spheroidal wave functions; software-defined allocation; spatial mode state; Adaptive optics; Decoding; Niobium; Optical modulation; Optical polarization; Parity check codes; Advanced FEC; LDPC coding; coded-modulation; multidimensional signaling; terabit optical Ethernet;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2013.2272328
