Experimental Validation of Deep Learning-based Models for Optical Time Domain Analysis

M. Devigili; D. Sequeira; D. Sequeira; C. Santos; M. Ruiz; B. Shariati; N. Costa; A. Napoli; J. K. Fischer; J. Pedro; L. Velasco

doi:10.1364/CLEO_SI.2023.SF1F.1

CLEO 2023
Technical Digest Series (Optica Publishing Group, 2023),
paper SF1F.1
•https://doi.org/10.1364/CLEO_SI.2023.SF1F.1

Experimental Validation of Deep Learning-based Models for Optical Time Domain Analysis

M. Devigili, D. Sequeira, C. Santos, M. Ruiz, B. Shariati, N. Costa, A. Napoli, J. K. Fischer, J. Pedro, and L. Velasco

CLEO: Science and Innovations 2023

San Jose, CA United States
7–12 May 2023
ISBN: 978-1-957171-25-8

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Machine Learning and DSP in Optical Transmission (SF1F)

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M. Devigili, D. Sequeira, C. Santos, M. Ruiz, B. Shariati, N. Costa, A. Napoli, J. K. Fischer, J. Pedro, and L. Velasco, "Experimental Validation of Deep Learning-based Models for Optical Time Domain Analysis," in CLEO 2023, Technical Digest Series (Optica Publishing Group, 2023), paper SF1F.1.

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Abstract

Optical constellations generated by Deep Learning models trained with datasets generated through simulation are compared to experimentally collected ones. The obtained high accuracy enables its application for optical time domain analysis in complex network scenarios.

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