Geometric Constellation Shaped Non-Linearity Tolerant Optical Communication System

Abstract

In any communication system, constellation shaping may be employed to increase the overall capacity of the system. In this paper, constellation shaping is investigated as a potential non-linearity tolerant method in coherent optical communication system. Geometric constellation shaping of 16-Quadrature Amplitude Modulation (16-QAM) back-to-back coherent system is implemented, and improvement in nonlinearity tolerance of the system with respect to regular 16-QAM coherent system is investigated. BER performance and non-linear interference analysis is carried out to present the insight of the levels of error rate and non-linearity tolerance in different geometric constellation shaped QAM systems over a non-linear channel. The values obtained for non-linearity interference noise (NLIN) variance for different geometric shapes like square, circular and star are −26.21 dBm, −27.39 dBm and −28.48 dBm respectively which is attributed to decrease in the values of standardized moments of input over the various constellation shapes.