Enhancing Microwave Photonic Interrogation Accuracy for Fiber-Optic Temperature Sensors via Artificial Neural Network Integration

Roman Makarov; Mohammed R. T. M. Qaid; Alaa N. Al Hussein; Bulat Valeev; Timur Agliullin; Vladimir Anfinogentov; Airat Sakhabutdinov

doi:10.3390/opt5020016

Optics (Apr 2024)

Enhancing Microwave Photonic Interrogation Accuracy for Fiber-Optic Temperature Sensors via Artificial Neural Network Integration

Roman Makarov,
Mohammed R. T. M. Qaid,
Alaa N. Al Hussein,
Bulat Valeev,
Timur Agliullin,
Vladimir Anfinogentov,
Airat Sakhabutdinov

Affiliations

Roman Makarov: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia
Mohammed R. T. M. Qaid: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia
Alaa N. Al Hussein: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia
Bulat Valeev: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia
Timur Agliullin: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia
Vladimir Anfinogentov: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia
Airat Sakhabutdinov: Department of Radiophotonics and Microwave Technologies, Kazan National Research Technical University Named after A. N. Tupolev—KAI, 10, K.Marx St., Kazan 420111, Russia

DOI: https://doi.org/10.3390/opt5020016
Journal volume & issue: Vol. 5, no. 2
pp. 223 – 237

Abstract

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In this paper, an application of an artificial neural network algorithm is proposed to enhance the accuracy of temperature measurement using a fiber-optic sensor based on a Fabry–Perot interferometer (FPI). It is assumed that the interrogation of the FPI is carried out using an optical comb generator realizing a microwave photonic approach. Firstly, modelling of the reflection spectrum of a Fabry–Perot interferometer is implemented. Secondly, probing of the obtained spectrum using a comb-generator model is performed. The resulting electrical signal of the photodetector is processed and is used to create a sample for artificial neural network training aimed at temperature detection. It is demonstrated that the artificial neural network implementation can predict temperature variations with an accuracy equal to 0.018 °C in the range from −10 to +10 °C and 0.147 in the range from −15 to +15 °C.

Published in Optics

ISSN: 2673-3269 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Physics: Optics. Light; Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics
Website: https://www.mdpi.com/journal/optics

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