Denoising-driven information extraction network (DENet) for Brillouin optical time-domain analyzer

•DENet integrates denoising and information extraction for BOTDA, enabling real-time processing.•Achieves high-fidelity results on low signal-to-noise ratio BGS without time-consuming curve fitting method.•Data processing is faster than acquisition, outperforms state-of-the-art methods in speed, acc...

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Vydáno v:Measurement : journal of the International Measurement Confederation Ročník 256; s. 118242
Hlavní autoři: Zhang, Zhihao, Zhu, Borong, Qian, Yuhao, Wang, Liang, Ma, Xiaole, Yu, Kuanglu
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.12.2025
Témata:
Brillouin distributed fiber optic sensor
Brillouin gain spectra
Convolutional denoising autoencoder
Image denoising
Real-time information extraction
Brillouin gain spectra
Real-time information extraction
Convolutional denoising autoencoder
Brillouin distributed fiber optic sensor
Image denoising
ISSN:0263-2241
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Shrnutí:•DENet integrates denoising and information extraction for BOTDA, enabling real-time processing.•Achieves high-fidelity results on low signal-to-noise ratio BGS without time-consuming curve fitting method.•Data processing is faster than acquisition, outperforms state-of-the-art methods in speed, accuracy and spatial resolution. Effective denoising techniques can significantly enhance the signal-to-noise ratio (SNR) in Brillouin gain spectrum (BGS) for Brillouin optical time-domain analyzer (BOTDA), thereby enhancing both measurement accuracy and sensing distance. These techniques also reduce the required number of averages times and hence increase measurement speed. However, most existing BGS denoising approaches treat denoising as a preprocessing step for Brillouin frequency shift (BFS) extraction. After denoising, sensing information such as temperature and strain are then typically extracted using methods like Lorentz curve fitting (LCF), resulting in a cumbersome and time-intensive process that is often unsuitable for real-time detection, not to mention the spatial resolution deterioration brought in. To address this issue, a novel denoising-driven information extraction network (DENet) based on a convolutional denoising autoencoder is proposed. DENet integrates denoising and information extraction into a unified real-time processing framework, thereby improving the measurement accuracy and speed of BOTDA, especially under a low SNR condition. Experimental results demonstrate that DENet could secure a 14.1 dB SNR improvement with accurate temperature extraction in only 1.2 s on a BGS with dimensions of 200 × 24000. Compared to traditional LCF methods, the root-mean-square error of the extracted temperature by DENet decreases from 1.38 °C to 0.64 °C, whereas the extraction time was reduced by approximately 168 times. Additionally, the proposed method also well preserves the spatial resolution, offering an efficient and accurate option for real-time BOTDA detection.
ISSN:0263-2241
DOI:10.1016/j.measurement.2025.118242