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17 May 2022 Temperature and humidity discrimination in Brillouin distributed fiber optic sensing using machine learning algorithms
Christos Karapanagiotis, Konstantin Hicke, Katerina Krebber
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Proceedings Volume 12139, Optical Sensing and Detection VII; 121390R (2022) https://doi.org/10.1117/12.2620985
Event: SPIE Photonics Europe, 2022, Strasbourg, France
Abstract
In the last few years, the use of machine learning has emerged in the field of distributed fiber optic sensors as a promising approach to enhance their performance and provide new capabilities. In this study, we use machine le arning for simultaneous measurements of temperature and humidity in polyimide (PI)-coated optical fibers based on Brillouin Brillouin optical frequency domain analysis (BOFDA). Different non-linear machine learning algorithms are employed, namely polynomial regression, decision trees and artificial neural networks (ANNs), and their discrimination performance is benchmarked against that of the conventional linear regression. The performance is evaluated using leave-one-out cross-validation to ensure that the models are reliable and able to generalize well on new data. We show that nonlinear machine learning algorithms outperform the conventional linear regression and thus could pave the way towards simultaneous cost-effective tempera ture and humidity distributed sensing, which has the potential to find attractive new applications in the field of civil and geotechnical engineering, from structural health monitoring of dikes and bridges to subsea cables and long pipelines corrosion detection.
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Christos Karapanagiotis, Konstantin Hicke, and Katerina Krebber "Temperature and humidity discrimination in Brillouin distributed fiber optic sensing using machine learning algorithms", Proc. SPIE 12139, Optical Sensing and Detection VII, 121390R (17 May 2022); https://doi.org/10.1117/12.2620985
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KEYWORDS
Humidity
Machine learning
Fiber optics sensors
Structural health monitoring
Artificial neural networks
Temperature sensors
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