Title :
Nonlinear Electrical Compensation for the Coherent Optical OFDM System
Author :
Pan, Jie ; Cheng, Chi-hao
Author_Institution :
Miami Univ., Oxford, OH, USA
Abstract :
A main drawback of Coherent Optical Orthogonal Frequency Division Multiplexing (CO-OFDM) system is its sensitivity to fiber nonlinearity. Nonlinear electrical equalizer based on Volterra model has been demonstrated capable of compensating fiber nonlinear distortion in an OOK or PSK optical communication system. However, the implementation complexity of a Volterra model based electrical equalizer prohibits its deployment in a real-life CO-OFDM system. In this paper, we demonstrate that the number of kernels of a Volterra model based equalizer can be significantly reduced using the modified Gram-Schmidt method with reorthogonalization techniques. The resulting “sparse” Volterra model based electrical equalizer and the electrical equalizer based on the “full” Volterra model have comparable performance and can compensate intra-channel nonlinearity of a 16-QAM 100 Gbit/s CO-OFDM System.
Keywords :
OFDM modulation; Volterra equations; amplitude shift keying; equalisers; light coherence; nonlinear distortion; nonlinear optics; optical communication equipment; optical distortion; optical fibre communication; optical modulation; phase shift keying; quadrature amplitude modulation; 16-QAM; OOK; PSK optical communication system; Volterra model based equalizer; bit rate 100 Gbit/s; coherent optical OFDM system; coherent optical orthogonal frequency division multiplexing; compensating fiber nonlinear distortion; modified Gram-Schmidt method; nonlinear electrical compensation; reorthogonalization; Equalizers; OFDM; Volterra series; nonlinear distortion; nonlinear systems; optical fiber communication; orthogonal functions;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2010.2098017
