Physics-Informed Gaussian Process Regression for Optical Fiber Communication Systems

Physics-Informed Gaussian Process Regression for Optical Fiber Communication Systems

We present a framework for enhancing Gaussian process regression machine learning models with a priori knowledge derived from models of the transmission physics in optical networks. This is done by framing the regression problem as multi-task learning, in which both the measured data and targets der...

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Veröffentlicht in:Journal of lightwave technology 2021-11, Vol.39 (21), p.6833-6844
Hauptverfasser: Nevin, Josh W., Vaquero-Caballero, F. J., Ives, David. J., Savory, Seb J.
Format: Artikel
Sprache:eng
Schlagworte:
Bayesian analysis
Communications systems
Data points
data-centric engineering
explainable machine learning
Gaussian process
Gaussian processes
Kernel
Machine learning
Mathematical model
Optical communication
Optical data processing
Optical fiber communication
Optical fiber networks
Optical fibers
Physics
Predictive models
Regression
Statistical inference
Uncertainty
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Beschreibung
Zusammenfassung:We present a framework for enhancing Gaussian process regression machine learning models with a priori knowledge derived from models of the transmission physics in optical networks. This is done by framing the regression problem as multi-task learning, in which both the measured data and targets derived from a physical model of the system are used to optimise the kernel hyperparameters. We discuss the theoretical assumptions made and the validity of the approach. It is demonstrated that physics-informed Gaussian processes facilitate Bayesian inference with fewer data points than standard Gaussian processes, opening up application areas in which measurements are expensive. The transparency, interpretability and explainability of the proposed technique and the subsequent increased likelihood of adoption by industry are discussed.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2021.3106714