Comprehensive Research in Earthquake Forecasting and Seismic Hazard Assessment

doi:10.3390/books978-3-0365-9481-1

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Comprehensive Research in Earthquake Forecasting and Seismic Hazard Assessment

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December 2023

246 pages

ISBN978-3-0365-9480-4 (Hardback)
ISBN978-3-0365-9481-1 (PDF)

https://doi.org/10.3390/books978-3-0365-9481-1

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This book is a reprint of the Special Issue Comprehensive Research in Earthquake Forecasting and Seismic Hazard Assessment that was published in

Biology & Life Sciences

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

The reprint "Comprehensive Research in Earthquake Forecasting and Seismic Hazard Assessment" is a collection of articles dealing with various aspects of the physics of seismic processes, earthquake forecasting, and the search for their precursors. All published articles can be roughly divided into three unequal groups according to the number of articles presented. The first group includes theoretical and methodological articles. The second group includes articles confirming one or another model of seismicity behaviour in anticipation of a strong earthquake. Finally, the third and most numerous group of articles consists of those analysing the results of long-term observations of the behaviour of various geophysical fields. We are confident that each of these articles will find an interested reader, and that the collection as a whole deserves the attention of representatives of the scientific community concerned with the problem of earthquake forecasting and the search for their precursors.

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Keywords

earthquake forecasting; strain rates; multiplicative hybrid models; reverse testing; spatial distribution; atmospheric electric field; earthquake precursors; radon concentration; earthquake interevent times; Greek seismicity; temporal correlations; statistical distributions; earthquake prediction; infrared remote sensing; multi-channel; pre-seismic anomaly; relative power spectrum; connected region; seismic noise; time series; singularity spectrum; wavelet analysis; spectral measure of coherence; Kamchatka Peninsula; earthquake prediction; earthquake; source deactivation; logistic equation; nonlinear diffusion equation; Omori epoch; round-the-world echo; mirror triad; PGA; PGV; return period; PSHA; stochastic seismic hazard assessment; earthquake preparation; areas of increased shear deformations; mathematical simulation; rock deformation; acoustic emission of near-surface rocks; apparent resistivity; correlation; earthquakes; magnetotellurics; electromagnetic signals; electromagnetic anomalies; aftershocks sequences; Tsallis entropy; interevent times; power-law scaling; complexity; Greek seismicity; apparent resistivity; earthquakes; magnetotellurics; electromagnetic anomalies; Antarctic Peninsula; Seymour–Marambio Island; Orca submarine volcano; numerical modelling; earthquake simulator; statistical methods; earthquake clustering; northern Adriatic sea; statistical seismology; numerical modeling; probabilistic forecasting; time-series analysis; seismic noise; wavelet-based entropy; wavelet-based Donoho–Johnston index; correlations; day length; n/a