Yiqing Chang scite author profile

Distributed optical fiber Brillouin sensors detect the temperature and strain along a fiber according to the local Brillouin frequency shift, which is usually calculated by the measured Brillouin spectrum using Lorentzian curve fitting. In addition, cross-correlation, principal component analysis, and machine learning methods have been proposed for the more efficient extraction of Brillouin frequency shifts. However, existing methods only process the Brillouin spectrum individually, ignoring the correlation in the time domain, indicating that there is still room for improvement. Here, we propose and experimentally demonstrate a full convolution neural network to extract the distributed Brillouin frequency shift directly from the measured two-dimensional data. Simulated ideal Brillouin spectrum with various parameters are used to train the network. Both the simulation and experimental results show that the extraction accuracy of the network is better than that of the traditional curve fitting algorithm with a much shorter processing time. This network has good universality and robustness and can effectively improve the performances of existing Brillouin sensors.

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Performance enhancement of ROTDR using deep convolutional neural networks

Wu¹,

Zhao²,

Liao³

et al. 2018

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Distributed Brillouin frequency shift extraction via a convolutional neural network

Chang¹,

Wu²,

Zhao³

et al. 2020

Preprint

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Yiqing Chang

Real-Time Denoising of Brillouin Optical Time Domain Analyzer With High Data Fidelity Using Convolutional Neural Networks

Distributed Brillouin frequency shift extraction via a convolutional neural network

Performance enhancement of ROTDR using deep convolutional neural networks

Distributed Brillouin frequency shift extraction via a convolutional neural network

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