A Ghost-Attention Network for Discriminating Tectonic and Non-Tectonic Events on a Small and Imbalanced Dataset

Liu, Xinliang; Ren, Tao; Chen, Hongfeng; Wang, Pengyu; Meng, Fanchun

doi:10.1109/access.2024.3401009

Cited by 3 publications

References 41 publications

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Classifying small earthquakes, explosions and collapses in the western United States using physics-based features and machine learning

Koper,

Burlacu,

Armstrong

et al. 2024

Geophysical Journal International

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SUMMARY Classifying the source type of small seismic events is a key task in seismology. A common goal is distinguishing tectonic earthquakes from explosions and human induced seismicity. To this end, we applied a spectral modelling workflow to Pg and Sg waves from ∼10 000 seismic events that occurred in or near Utah and were recorded by broadband seismometers in the western United States at distances of 10–300 km. The events were a mixture of tectonic earthquakes (EQ), industrial explosions (EX) and mining-induced seismicity (MIS, primarily collapses) and were mostly small (median magnitude of 1.34 MC). Our spectral modelling was successful for 54 per cent of the events, resulting in a new catalogue of M0 and fc values. We evaluated 13 physics-based features—including differential magnitudes, Pg/Sg spectral amplitude ratios, long-period/short-period spectral amplitude ratios and spectral misfit—as source classifiers. We found that Φ ≡ log10(M0) + 3log10(fc) was the most effective individual feature for distinguishing EQ from EX and MIS sources because EQ spectra are relatively enriched in high frequencies. We selected five less correlated features that spanned the feature space and used a naïve Bayes approach to create a three-way classification model. The model had 97.5 per cent accuracy when applied to an independent test data set. Model performance deteriorated when more than six features were combined. We conclude that models developed with a few physics-based waveform features can classify small seismic events with performance comparable to high-dimensional deep-learning models. Simple models that rely on physics-based features require less training data and make more interpretable decisions than deep-learning models, though they may require higher signal-to-noise ratios.

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Classifying small earthquakes, explosions and collapses in the western United States using physics-based features and machine learning

Koper,

Burlacu,

Armstrong

et al. 2024

Geophysical Journal International

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PCB Defect Detection Method Based on G-YOLOv8

Gao,

Bai,

Lian

et al. 2024

2024 International Conference on Cyber-Physical Social Intelligence (ICCSI)

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The CWA Benchmark: A Seismic Dataset from Taiwan for Seismic Research

Tang,

Chen,

Chen

et al. 2024

Seismological Research Letters

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In recent years, numerous studies have employed deep learning in seismology, with data-driven neural network models increasingly becoming the norm in emerging research paradigms. Alongside advancements in model architectures, several benchmark datasets have also been introduced. However, many of these datasets suffer from imbalanced distributions, particularly a scarcity of large-magnitude events, which can impair the performance of deep learning-based models. Taiwan, situated in a seismically active region experiences a high frequency of earthquakes annually. The Central Weather Administration (CWA) in Taiwan maintains comprehensive records of these seismic events. This study introduces a benchmark dataset, named CWA, specifically compiled from this extensive database. The CWA benchmark includes 331 events with magnitudes greater than five, collected from a high-density seismic network spanning from 2011 to 2021, making it well-suited for training deep learning models. In addition, the CWA benchmark features over 40 attributes and ∼500,000 seismograms, providing valuable data labels for various seismology-related tasks.

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A Ghost-Attention Network for Discriminating Tectonic and Non-Tectonic Events on a Small and Imbalanced Dataset

Cited by 3 publications

References 41 publications

Classifying small earthquakes, explosions and collapses in the western United States using physics-based features and machine learning

Classifying small earthquakes, explosions and collapses in the western United States using physics-based features and machine learning

PCB Defect Detection Method Based on G-YOLOv8

The CWA Benchmark: A Seismic Dataset from Taiwan for Seismic Research

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