This book develops the theory of electromagnetic (EM) precursors to seaquakes (i.e. underwater earthquakes) and tsunamis, including the sequential stages of the transformation of a weak seismic mechanical excitation of the sea bottom into EM signals in the atmosphere. It further examines the relationship between geophysics and biophysics, using appropriate mathematical support, and a new model of the magnetic location of the epicenter of a possible land earthquake is described, as well as a block-scheme of the multidisciplinary multilevel seaquake monitoring complex. Also discussed are…mehr
This book develops the theory of electromagnetic (EM) precursors to seaquakes (i.e. underwater earthquakes) and tsunamis, including the sequential stages of the transformation of a weak seismic mechanical excitation of the sea bottom into EM signals in the atmosphere. It further examines the relationship between geophysics and biophysics, using appropriate mathematical support, and a new model of the magnetic location of the epicenter of a possible land earthquake is described, as well as a block-scheme of the multidisciplinary multilevel seaquake monitoring complex. Also discussed are measured changes of brain bioelectric activity and heart functioning under the influence of moderate geomagnetic storms.
Written for researchers and specialists (e.g. upper level undergraduates, postgraduates, scientists) in mathematical, computational, geophysical, biophysical, geodynamical, seismological and prognostic disciplines, this book provides multidisciplinary dataand analytical tools supporting the theory and practice of seismic prognosis, promoting further understanding of novel marine and land monitoring systems.
Dr. Oleg Bencionovich Novik has published over one hundred papers and a monograph on partial and ordinary differential equations, namely: string-diffusion systems of partial differential equations, ordinary differential equations with shock waves, applications in hydrodynamics, magneto-thermo-elasticity theory, optimal control in hydrogeology, and geophysics including the magnetic storms' influence on the brain, land, and marine geodynamics. He is a researcher at IZMIRAN and part-time lecturer in mathematical and functional analysis, partial differential equations, ordinary differential equations, and optimization theory at St. Petersburg State University, Moscow Energy Institute (Technical University), and Moscow State Geological Prospecting University. Feodor Alexandrovich Smirnov's work is connected with measuring the electric potentials of the human cerebral cortex. Since 2005 he has been a junior researcher in the laboratory of Dr. Novik where he is investigating the cosmicweather influence on the coherence of the brain electromagnetic processes. Maxim Nikolaevich Volgin is a Ph. D student at IZMIRAN where he is investigating the computational methods for partial differential equations and their application in the magnetic location of the earthquake epicenters. The results are published in Russian and English, including papers presented at scientific conferences, and will be included in his PhD thesis.
Inhaltsangabe
Chapter1: Low-resistivity structures in the seismically active lithosphere zones and observations of EM signals of seismic origination.- Chapter2: Theory of magnetic location of the epicentre area of a possible earthquake.- Chapter3: Tsunami precursors: mathematical model and applications.- Chapter4: Space Weather.- Chapter5: Structure of a Brain.- Chapter6: Space weather influence on bioelectric activity of a human brain.- Chapter7: Elements of cardiac anatomy and physiology.- Chapter8: The measured results of magnetic storms' influence on heart.- Chapter9: String-diffusion systems of equations.- Chapter10: Numerical stability of the discretized initial-boundary value problems of the string-diffusion systems of equations (SDSE).- Chapter11: A model description of running waves (rw) on water.- Chapter12: Conclusion
Chapter1: Low-resistivity structures in the seismically active lithosphere zones and observations of EM signals of seismic origination.- Chapter2: Theory of magnetic location of the epicentre area of a possible earthquake.- Chapter3: Tsunami precursors: mathematical model and applications.- Chapter4: Space Weather.- Chapter5: Structure of a Brain.- Chapter6: Space weather influence on bioelectric activity of a human brain.- Chapter7: Elements of cardiac anatomy and physiology.- Chapter8: The measured results of magnetic storms' influence on heart.- Chapter9: String-diffusion systems of equations.- Chapter10: Numerical stability of the discretized initial-boundary value problems of the string-diffusion systems of equations (SDSE).- Chapter11: A model description of running waves (rw) on water.- Chapter12: Conclusion
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