Debris Flow Infrasound Recognition Method Based on Improved LeNet-5 Network

To distinguish debris flow infrasound from other infrasound sources, previous works have used one-dimensional infrasound shapes and parameters. In this study, we converted infrasound signals into two-dimensional signal time–frequency graphs and created a time–frequency graph dataset containing five...

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Bibliographic Details
Published in:Sustainability 2022-12, Vol.14 (23), p.15925
Main Authors: Leng, Xiaopeng, Feng, Liangyu, Ou, Ou, Du, Xuelei, Liu, Dunlong, Tang, Xin
Format: Article
Language:English
Subjects:
Acoustics
Deep learning
Design
Detritus
Earthquakes
Flow
Identification and classification
Infrasound
Neural networks
Noise
Recognition
Signal processing
Sustainability
Time-frequency analysis
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Summary:To distinguish debris flow infrasound from other infrasound sources, previous works have used one-dimensional infrasound shapes and parameters. In this study, we converted infrasound signals into two-dimensional signal time–frequency graphs and created a time–frequency graph dataset containing five common kinds of infrasound. We used deep learning to distinguish debris flow infrasound from other infrasound and improved the deep learning model to enhance the accuracy of debris flow infrasound identification. By improving the LeNet-5 network, we obtained an infrasound signal recognition method for debris flows based on deep learning. After signal preprocessing and model training, this method was able to differentiate target infrasound from environmental infrasound, and a debris flow infrasound recognition accuracy of 84.1% was achieved. The method described in this paper can effectively recognize debris flow infrasound and distinguish it from other environmental infrasound. By such means, more accurate and more timely debris flow disaster warnings may be obtained.
ISSN:2071-1050
2071-1050
DOI:10.3390/su142315925