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Full Description
The book presents earthquake source, wave propagation, site amplification, and other seismological studies including earthquake simulation, application of Artificial Neural Network (ANN) in seismology, earthquake early warning system, waveform inversion, moment tensor analysis, receiver function analysis, earthquake prediction, and earthquake early warning system applications. To minimize the losses due to an earthquake, it is better to understand the source properties, medium characteristics, site condition, and amplitude of a probable earthquake at a particular site. The evolutions of earthquake source models make it possible to understand the source dynamics. However, analysis of the source using a single-domain method does not provide a better understanding of the source dynamics. Therefore, this book combines methods from the earthquake spectrum to waveform inversion and joint inversion. The book also discusses earthquake prediction methods and their reliability around the globe, and techniques of simulation viz. stochastic, empirical, semi-empirical, and hybrid, along with their limitations and application. Seismology is an interdisciplinary subject. Therefore, the information presented in the book will appeal to a wider readership from students, teachers, researchers, planners engaged in developmental work, and people concerned with earthquake awareness.
Contents
Chapter 1: Earthquake Occurrence Models.- Chapter 2: Estimation and Validation of arias intensity relation using the 1991 Uttarkashi and 1999 Chamoli earthquakes data.- Chapter 3: Exploring the Concept of Self-Similarity and High-Frequency Decay Kappa-Model and fmax-Model Using Strong-Motion Surface and Borehole Data of Japan: A Statistical Approach.- Chapter 4: Body waves and Surface waves derived Moment Tensor Catalog for Garhwal-Kumaon Himalayas.- Chapter 5: Exploring GRACE and GPS, and absolute gravity data on the relationship between hydrological changes and vertical crustal deformation in south India.- Chapter 6: Moho mapping of Northern Chile Region using receiver function analysis and HK stacking.- Chapter 7: Coulomb Stress Change of the 2012 Indian Ocean Doublet Earthquake.- Chapter 8: Earthquake source dynamics and high frequency decal characteristics of Japanese arc region.- Chapter 9: Lapse-Time Dependence of Coda Quality Factor Within the Lithosphere of Northern Ecuador.-Chapter 10: Coda Q estimates of the Bilaspur region of Himachal Lesser Himalaya.- Chapter 11: Data-driven spatiotemporal assessment of seismicity in the Philippine region.- Chapter 12: Determination and identification of focal mechanism solutions for the 2016 Kumamoto Earthquake from waveform inversion using ISOLA software.- Chapter 13: Regression Relations for Magnitude Conversion of Northeast India and Northern Chile and Southern Peru.
