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Design, Instrumentation and Usage Protocols for Distributed In Situ Thermal Hot Spots Monitoring in Electric Coils using FBG Sensor Multiplexing
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High-precision demodulation method for the cobweb FBG sensor network.

Hong Jiang, Chenyang Wang, Yihan Zhao

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    |January 11, 2023
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    This summary is machine-generated.

    This study introduces a novel algorithm combining wavelet de-noising and a 1D dilated convolutional neural network (CNN) for improved fiber Bragg grating (FBG) sensor accuracy and speed. The method effectively demodulates complex, overlapping signals with high precision and efficiency.

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    Area of Science:

    • Optical Engineering
    • Signal Processing
    • Artificial Intelligence

    Background:

    • Fiber Bragg Grating (FBG) sensor networks are crucial for precise measurements.
    • Demodulating highly overlapping signals in FBG networks presents significant accuracy and speed challenges.
    • Existing methods struggle with complex signal interference, limiting network performance.

    Purpose of the Study:

    • To enhance the demodulation accuracy and speed of cobweb FBG sensor networks.
    • To develop a robust algorithm capable of handling highly overlapping sensing signals.
    • To reduce signal demodulation errors and shorten detection times.

    Main Methods:

    • A novel demodulation algorithm integrating improved wavelet adaptive threshold de-noising with a one-dimensional (1D) dilated convolutional neural network (CNN) was developed.
    • The wavelet de-noising technique was employed to preprocess highly overlapping optical fiber sensing signals.
    • A well-trained 1D dilated CNN model was utilized for the core signal demodulation process.

    Main Results:

    • The proposed algorithm achieved a root-mean-square error of less than 0.10 pm in determining peak wavelengths for four highly overlapping signals.
    • The average demodulation time was significantly reduced to 15.2 ms.
    • Experimental results demonstrated substantial improvements in detection accuracy and reduced detection time for the cobweb FBG sensor network.

    Conclusions:

    • The combined wavelet de-noising and 1D dilated CNN algorithm offers a highly accurate and efficient solution for FBG sensor network demodulation.
    • This approach effectively overcomes the challenges posed by highly overlapping signals, enhancing measurement reliability.
    • The developed method represents a significant advancement in optical sensing technology, enabling faster and more precise data acquisition.