Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning
The low-altitude satellite DEMETER recorded many cases of ionospheric perturbations observed on occasion of large seismic events. In this paper, we explore 16 spot-checking classification algorithms, among which, the top classifier with low-frequency power spectra of electric and magnetic fields was...
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sg-ntu-dr.10356-1459592021-01-18T07:17:33Z Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning Xiong, Pan Long, Cheng Zhou, Huiyu Battiston, Roberto Zhang, Xuemin Shen, Xuhui School of Computer Science and Engineering Engineering::Computer science and engineering Earthquake Seismic Precursors The low-altitude satellite DEMETER recorded many cases of ionospheric perturbations observed on occasion of large seismic events. In this paper, we explore 16 spot-checking classification algorithms, among which, the top classifier with low-frequency power spectra of electric and magnetic fields was used for ionospheric perturbation analysis. This study included the analysis of satellite data spanning over six years, during which about 8760 earthquakes with magnitude greater than or equal to 5.0 occurred in the world. We discover that among these methods, a gradient boosting-based method called LightGBM outperforms others and achieves superior performance in a five-fold cross-validation test on the benchmarking datasets, which shows a strong capability in discriminating electromagnetic pre-earthquake perturbations. The results show that the electromagnetic pre-earthquake data within a circular region with its center at the epicenter and its radius given by the Dobrovolsky’s formula and the time window of about a few hours before shocks are much better at discriminating electromagnetic pre-earthquake perturbations. Moreover, by investigating different earthquake databases, we confirm that some low-frequency electric and magnetic fields’ frequency bands are the dominant features for electromagnetic pre-earthquake perturbations identification. We have also found that the choice of the geographical region used to simulate the training set of non-seismic data influences, to a certain extent, the performance of the LightGBM model, by reducing its capability in discriminating electromagnetic pre-earthquake perturbations. Published version 2021-01-18T07:17:33Z 2021-01-18T07:17:33Z 2020 Journal Article Xiong, P., Long, C., Zhou, H., Battiston, R., Zhang, X., & Shen, X. (2020). Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning. Remote Sensing, 12(21), 3643-. doi:10.3390/rs12213643 2072-4292 https://hdl.handle.net/10356/145959 10.3390/rs12213643 2-s2.0-85096115813 21 12 en Remote Sensing © 2020 The Authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Computer science and engineering Earthquake Seismic Precursors Xiong, Pan Long, Cheng Zhou, Huiyu Battiston, Roberto Zhang, Xuemin Shen, Xuhui Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning |
| description |
The low-altitude satellite DEMETER recorded many cases of ionospheric perturbations observed on occasion of large seismic events. In this paper, we explore 16 spot-checking classification algorithms, among which, the top classifier with low-frequency power spectra of electric and magnetic fields was used for ionospheric perturbation analysis. This study included the analysis of satellite data spanning over six years, during which about 8760 earthquakes with magnitude greater than or equal to 5.0 occurred in the world. We discover that among these methods, a gradient boosting-based method called LightGBM outperforms others and achieves superior performance in a five-fold cross-validation test on the benchmarking datasets, which shows a strong capability in discriminating electromagnetic pre-earthquake perturbations. The results show that the electromagnetic pre-earthquake data within a circular region with its center at the epicenter and its radius given by the Dobrovolsky’s formula and the time window of about a few hours before shocks are much better at discriminating electromagnetic pre-earthquake perturbations. Moreover, by investigating different earthquake databases, we confirm that some low-frequency electric and magnetic fields’ frequency bands are the dominant features for electromagnetic pre-earthquake perturbations identification. We have also found that the choice of the geographical region used to simulate the training set of non-seismic data influences, to a certain extent, the performance of the LightGBM model, by reducing its capability in discriminating electromagnetic pre-earthquake perturbations. |
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School of Computer Science and Engineering |
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School of Computer Science and Engineering Xiong, Pan Long, Cheng Zhou, Huiyu Battiston, Roberto Zhang, Xuemin Shen, Xuhui |
| format |
Article |
| author |
Xiong, Pan Long, Cheng Zhou, Huiyu Battiston, Roberto Zhang, Xuemin Shen, Xuhui |
| author_sort |
Xiong, Pan |
| title |
Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning |
| title_short |
Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning |
| title_full |
Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning |
| title_fullStr |
Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning |
| title_full_unstemmed |
Identification of electromagnetic pre-earthquake perturbations from the DEMETER data by machine learning |
| title_sort |
identification of electromagnetic pre-earthquake perturbations from the demeter data by machine learning |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/145959 |
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1690658490826096640 |