Application of Machine Learning Techniques for Amplitude and Phase Noise Characterization

Darko Zibar; Luis Henrique Hecker de Carvalho; Molly Piels; Andy Doberstein; Julio Diniz; Bernd Nebendahl; Carolina Franciscangelis; Jose Estaran; Hansjoerg Haisch; Neil G. Gonzalez; Julio Cesar R. F. de Oliveira; Idelfonso Tafur Monroy

Journal of Lightwave Technology
Vol. 33,
Issue 7,
pp. 1333-1343
(2015)

Application of Machine Learning Techniques for Amplitude and Phase Noise Characterization

Darko Zibar, Luis Henrique Hecker de Carvalho, Molly Piels, Andy Doberstein, Julio Diniz, Bernd Nebendahl, Carolina Franciscangelis, Jose Estaran, Hansjoerg Haisch, Neil G. Gonzalez, Julio Cesar R. F. de Oliveira, and Idelfonso Tafur Monroy

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Darko Zibar, Luis Henrique Hecker de Carvalho, Molly Piels, Andy Doberstein, Julio Diniz, Bernd Nebendahl, Carolina Franciscangelis, Jose Estaran, Hansjoerg Haisch, Neil G. Gonzalez, Julio Cesar R. F. de Oliveira, and Idelfonso Tafur Monroy, "Application of Machine Learning Techniques for Amplitude and Phase Noise Characterization," J. Lightwave Technol. 33, 1333-1343 (2015)

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Abstract

In this paper, tools from machine learning community, such as Bayesian filtering and expectation maximization parameter estimation, are presented and employed for laser amplitude and phase noise characterization. We show that phase noise estimation based on Bayesian filtering outperforms conventional time-domain approach in the presence of moderate measurement noise. Additionally, carrier synchronization based on Bayesian filtering, in combination with expectation maximization, is demonstrated for the first time experimentally.

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Journal of Lightwave Technology