Differentiable Machine Learning-Based Modeling for Directly-Modulated Lasers
Résumé
End-to-end learning has become a popular method for joint transmitter and receiver optimization in optical communication systems. Such approach may require a differentiable channel model, thus hindering the optimization of links based on directly modulated lasers (DMLs). This is due to the DML behavior in the large-signal regime, for which no analytical solution is available. In this paper, this problem is addressed by developing and comparing differentiable machine learningbased surrogate models. The models are quantitatively assessed in terms of root mean square error and training/testing time. Once the models are trained, the surrogates are then tested in a numerical equalization setup, resembling a practical end-to-end scenario. Based on the numerical investigation conducted, the convolutional attention transformer is shown to outperform the other models considered.
Fichier principal
Differentiable_Machine_Learning-Based_Modeling_for_Directly-Modulated_Lasers.pdf (2.26 Mo)
Télécharger le fichier
Origine | Fichiers produits par l'(les) auteur(s) |
---|