Article

Study on Denoising Microseismic Signal Based on Autoencoder Convolutional Neural Networks

1 School of Civil Engineering, Dalian University of Technology, Dalian, 116024, China
2 Hanjiang-to-Weihe River Valley Water Diversion Project Construction Co., Ltd., Xi'an, 710010, China
3 School of Earth Sciences and Engineering, Hohai University, Nanjing, 210098, China
4 Fujian Railway Construction Co., Ltd. of China Railway 24th Bureau Group, Fuzhou, 350013, China
5 China Railway 24th Bureau Group, Fuzhou, 350013, China
6 China Construction Fourth Engineering Division Co. Ltd., Guangzhou, 511400, China

https://doi.org/10.58531/ijge10310001 

Received: 8 December 2022 / Accepted: 25 December 2022 / Published: 1 January 2023

As a kind of dynamic real-time monitoring technology, microseismic monitoring technology has been widely used for rockburst warning. Due to the complexity of the actual monitoring environment, the monitoring signals often contain different types of noise, affecting the earning warning of rockburst. In this study, an Autoencoder Convolutional Neural Network denoising model based on deep learning has been proposed to denoising of the complex signals. The unsupervised adaptive training method is used to train the model, which only needs to set its initial parameters. The importance of an enhanced training dataset is illustrated by the comparison experiment. The results indicate that the training and verification shows well performance during training. The denoising efficiency of the proposed model is studied by the denoising of the synthetic noise-containing signals. Furthermore, the dataset from the water conveyance tunnel in the Hanjiang-to-Weihe River water diversion project (HJ-Project) in Shaanxi Province is taken as an engineering example to evolute the performance of the proposed model for practical project. The denoising performance of the model is analysed through the visual denoising results and evaluation index. The model can effectively denoise the complex noised signal which separate it into pure microseismic signal and noise signal, and improve the signal-to-noise ratio, which is benefit for arrive-time picking and source locating then improve the performance of early warning of rockburst.

microseismic monitoring; rockburst; deep learning; denoising; convolutional neural network

 Tang S, Liu F, Zhu C, Chen X, Wang X, Wang Z, Chao L, Su Y, Zhao L, Li J, Ding S, Lai M. Study on Denoising Microseismic Signal Based on Autoencoder Convolutional Neural Networks. Int. J. Geo-Energy, 2023, 1(1), doi: 10.58531/ijge10310001

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