Abstract
Brillouin scattering-based distributed optical fiber sensors have been successfully employed in various applications in recent decades, because of benefits such as small size, light weight, electromagnetic immunity, and continuous monitoring of temperature and strain. However, the data processing requirements for the Brillouin Gain Spectrum (BGS) restrict further improvement of monitoring performance and limit the application of real-time measurements. Studies using Feedforward Neural Network (FNN) to measure Brillouin Frequency Shift (BFS) have been performed in recent years to validate the possibility of improving measurement performance. In this work, a novel FNN that is 3 times faster than previous FNNs is proposed to improve BFS measurement performance. More specifically, after the original Brillouin Gain Spectrum (BGS) is preprocessed by Principal Component Analysis (PCA), the data are fed into the Feedforward Neural Network (FNN) to predict BFS.
Highlights
Novel Feedforward Neural Network.Smart manufacturing based on the Internet of Things (IoT) is growing rapidly, driving the rapid development of IoT technology [1,2]
The performance of the Feedforward Neural Network (FNN) is estimated by calculating the Mean Absolute where x is the i measured Brillouin Frequency Shift (BFS) and x
Simulated Brillouin Gain Spectrum (BGS) that were not used in the training phase are fed into the FNN
Summary
Scanning the required range of pump–probe frequency difference is used to construct BGS. The measurement range for this algorithm is correlated with the size of the reference database, meaning that the required storage of the algorithm increases as the measurement range increases Simulation results show that the proposed FNN has the ability to measure BFS from BGS with a shorter measurement time and adaptability to different frequency scanning steps. In this proof-of-concept experiment, the experimental results show that the novel FNN is able to accurately measure BFS from experimental BGS
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