Performance optimization of nyquist signaling for spectrally efficient optical access networks [Invited]


In this work, Nyquist pulse-shaping technology is exploited for future implementations of optical access networks. The paper 1st presents technical issues relating to digital implementation of Nyquist spectral shaping for low-symbol-rate systems. Second, the potential benefits regarding mitigation of cross talk (linear and nonlinear) of Nyquist pulse shaping in symmetric and bidirectional wavelength-division multiplexing passive optical networks (WDM-PONs) are presented. Lastly, the paper proposes a WDM-PON resolution employing self-coherent detection at the optical network unit and heterodyne coherent detection at the optical line terminal. In this proposed architecture, a multi-objective optimization strategy is developed to boost the transmission performance of the Nyquist-formed bands in full-duplex mode.

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