Fabry-Perot interferometric sensor demodulation system utilizing multi-peak wavelength tracking and neural network algorithm

Fabry-Perot interferometric sensor demodulation system utilizing multi-peak wavelength tracking and neural network algorithm

For FPI sensor demodulation systems to be used in actual engineering measurement, they must have high performance, low cost, stability, and scalability. Excellent performance, however, necessitates expensive equipment and advanced algorithms. This research provides a new absolute demodulation system...

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Veröffentlicht in:Optics express 2022-07, Vol.30 (14), p.24461-24480
Hauptverfasser: Chen, Shengchao, Yao, Feifan, Ren, Sufen, Yang, Jianli, Yang, Qian, Yuan, Shuyu, Wang, Guanjun, Huang, Mengxing
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container_end_page 24480
container_issue 14
container_start_page 24461
container_title Optics express
container_volume 30
creator Chen, Shengchao
Yao, Feifan
Ren, Sufen
Yang, Jianli
Yang, Qian
Yuan, Shuyu
Wang, Guanjun
Huang, Mengxing
description For FPI sensor demodulation systems to be used in actual engineering measurement, they must have high performance, low cost, stability, and scalability. Excellent performance, however, necessitates expensive equipment and advanced algorithms. This research provides a new absolute demodulation system for FPI sensors that is high-performance and cost-effective. The reflected light from the sensor was demultiplexed into distinct channels using an array waveguide grating (AWG), with the interference spectrum features change translated as the variation of the transmitted intensity in each AWG channel. This data was fed into an end-to-end neural network model, which was utilized to interrogate multiple interference peaks’ absolute peak wavelengths simultaneously. This architecturally simple network model can achieve remarkable generalization capabilities without training large-scale datasets using an appropriate data augmentation strategy. Experiments show that in simultaneous multi-wavelength and cavity length interrogations, the proposed system has the precision of up to ± 14 pm and ± 0.07 µm, respectively. The interrogation resolution can theoretically reach the pm level benefit from the neural network method. Furthermore, the system’s outstanding demodulation repeatability and suitability were demonstrated. The system is expected to provide a high-performance and cost-effective, reliable solution for practical engineering applications.
doi_str_mv 10.1364/OE.461027
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title Fabry-Perot interferometric sensor demodulation system utilizing multi-peak wavelength tracking and neural network algorithm
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