Modified Medium-Term Earthquake Forecast Method: Map of Expected Earthquakes. Processing and Analyzing the Initial Data

This article is the second in a series devoted to the modification of the Map of Expected Earthquakes (MEE) method of medium-term earthquake forecasting. The description of algorithms for preparing and analyzing initial data and the results of their application are presented. In particular, the foll...

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Veröffentlicht in:	Izvestiya. Atmospheric and oceanic physics 2023-12, Vol.59 (7), p.761-771
Hauptverfasser:	Zavyalov, A. D., Morozov, A. N., Aleshin, I. M., Ivanov, S. D., Kholodkov, K. I., Pavlenko, V. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Catalogues Climatology Computational grids Data analysis Earth and Environmental Science Earth Sciences Earthquake forecasting Earthquake prediction Earthquakes Geophysics/Geodesy Seismic activity Spatial distribution
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container_title	Izvestiya. Atmospheric and oceanic physics
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creator	Zavyalov, A. D. Morozov, A. N. Aleshin, I. M. Ivanov, S. D. Kholodkov, K. I. Pavlenko, V. A.
description	This article is the second in a series devoted to the modification of the Map of Expected Earthquakes (MEE) method of medium-term earthquake forecasting. The description of algorithms for preparing and analyzing initial data and the results of their application are presented. In particular, the following additional functional capabilities have been achieved: (1) the creation of various computational grids for further spatial and temporal scanning of the earthquake catalog within the analyzed seismic active region, (2) the declustering of earthquake catalogs and evaluation of representative values of energy classes (magnitudes) in space and time, and (3) the evaluation of time interval length for calculating the background parameters of prognostic features. The overall result of successful scientific and technical work will be the creation of an upgraded method for medium-term earthquake prediction taking into account the spatial distribution of earthquake sources, the integrated use of physically based earthquake precursors, the results of seismic zoning in the form of a lineament–domain–focal (LDF) model, and other related areas of research.
doi_str_mv	10.1134/S0001433823070058
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subjects	Algorithms Catalogues Climatology Computational grids Data analysis Earth and Environmental Science Earth Sciences Earthquake forecasting Earthquake prediction Earthquakes Geophysics/Geodesy Seismic activity Spatial distribution
title	Modified Medium-Term Earthquake Forecast Method: Map of Expected Earthquakes. Processing and Analyzing the Initial Data
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