A Data-driven Optimization of First-order Regular Perturbation Coefficients for Fiber Nonlinearities
Abstract
We study the performance of gradient-descent optimization to estimate the coefficients of the discrete-time first-order regular perturbation (FRP). With respect to numerically computed coefficients, the optimized coefficients yield a model that (i) extends the FRP range of validity, and (ii) reduces the model's complexity.
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