Automatic classification of seismic events within a regional seismograph network

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http://hdl.handle.net/10138/166713

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Kortström , J , Uski , M & Tiira , T 2016 , ' Automatic classification of seismic events within a regional seismograph network ' , Computers & Geosciences , vol. 87 , pp. 22-30 . https://doi.org/10.1016/j.cageo.2015.11.006

Title: Automatic classification of seismic events within a regional seismograph network
Author: Kortström, Jari; Uski, Marja; Tiira, Timo
Contributor: University of Helsinki, Department of Geosciences and Geography
University of Helsinki, Department of Geosciences and Geography
University of Helsinki, Department of Geosciences and Geography
Date: 2016-02
Language: eng
Number of pages: 9
Belongs to series: Computers & Geosciences
ISSN: 0098-3004
URI: http://hdl.handle.net/10138/166713
Abstract: This paper presents a fully automatic method for seismic event classification within a sparse regional seismograph network. The method is based on a supervised pattern recognition technique called the Support Vector Machine (SVM). The classification relies on differences in signal energy distribution between natural and artificial seismic sources. We filtered seismic records via 20 narrow band-pass filters and divided them into four phase windows: P, P coda, S, and S coda. We then computed a short-term average (STA) value for each filter channel and phase window. The 80 discrimination parameters served as a training model for the SVM. We calculated station specific SVM models for 19 on-line seismic stations in Finland. The training data set included 918 positive (earthquake) and 3469 negative (non-earthquake) examples. An independent test period determined method and rules for integrating station-specific classification results into network results. Finally, we applied the network classification rules to independent evaluation data comprising 5435 fully automatic event determinations, 5404 of which had been manually identified as explosions or noise, and 31 as earthquakes. The SVM method correctly identified 94% of the non-earthquakes and all but one of the earthquakes. The result implies that the SVM tool can identify and filter out blasts and spurious events from fully automatic event solutions with a high level of accuracy. The tool helps to reduce the work-load and costs of manual seismic analysis by leaving only a small fraction of automatic event determinations, the probable earthquakes, for more detailed seismological analysis. The self-learning approach presented here is flexible and easily adjustable to the requirements of a denser or wider high-frequency network.
Subject: 114 Physical sciences
GEOPHYSICS
seismology
113 Computer and information sciences
1171 Geosciences
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