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

Abstract: 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 per… Show more

Reference Sensor of Addressable Type for Qualitative and Quantitative Air Monitoring: Sensor components design

Reference Sensor of Addressable Type for Qualitative and Quantitative Air Monitoring: Sensor components design

Reference Sensor of Addressable Type for Qualitative and Quantitative Air Monitoring: Physical principles of design and mathematical analysis

Microscopic Temperature Sensor Based on End-Face Fiber-Optic Fabry–Perot Interferometer