研究目的
To present an approximate model for the nonlinear optical fibre channel in the weak-dispersion regime, in a noiseless scenario, by applying regular perturbation theory on the group-velocity dispersion parameter of the nonlinear Schr?dinger equation.
研究成果
The proposed RP on β2 model is significantly more accurate for links with high nonlinearities and weak dispersion compared to existing models. It is suitable for applications relying on low bandwidths and short distances, such as passive optical networks and hybrid fibre coax systems. Future work includes designing a receiver based on the RP on β2, deriving higher-order perturbations, and extending the model to dual-polarization systems.
研究不足
The proposed model is currently limited to low bandwidths (below 11 GHz) and short distances (below 80 km). It does not account for noise and is not intended for long-haul or wavelength-division-multiplexed systems.
1:Experimental Design and Method Selection:
The study employs regular perturbation theory on the group-velocity dispersion parameter of the nonlinear Schr?dinger equation to derive an approximate model for the nonlinear optical fibre channel.
2:Sample Selection and Data Sources:
The study uses numerical simulations to compare the proposed model with three other models under various conditions.
3:List of Experimental Equipment and Materials:
The simulations are conducted in Matlab?, considering different fibre types (SSMF and NZDSF) and modulation formats (64-QAM, QPSK, star 8-QAM).
4:Experimental Procedures and Operational Workflow:
The simulations involve generating symbols, shaping them with an RRC filter, and processing them through either the SSFM or one of the analytical models. The performance is evaluated using the NSD and SNR metrics.
5:Data Analysis Methods:
The accuracy of the models is assessed using the NSD metric, and the discrete-time performance is evaluated using the SNR metric.
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