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Based on lectures given in the First Russian School-Seminar on electromagnetic soundings of the Earth held in Moscow on 15th November, 2003, this book acquaints scientists and technologists with the latest achievements in theory, techniques and practical applications of the methods of electromagnetic sounding. This three part text covers the methods considered for Earth electromagnetic sounding on a global, regional, and local scale; modern methods for solving forward and inverse problems of geoelectrics, particularily contemporary approaches to the EM data modeling and interpretation in the class of three-dimensional models; and the results of regional EM on-land and sea soundings
*Presents theoretical and methodological findings, as well as examples of applications of recently developed algorithms and software in solving practical problems
*Describes the practical importance of electromagnetic data through enabling discussions on a construction of a closed technological cycle, processing, analysis and three-dimensional interpretation
*Updates current findings in the field, especially with MT, magnetovariational and seismo-electriccal methods and the practice of 3D interpretaions
Preface
Part 1: EM Sounding Methods
1. Global 3-D EM Induction in the Solid Earth and the Oceans
2. Magnetovariational Method in Deep Geoelectrics
3. Shallow Investigations by TEM-FAST Technique: Methodology and Examples
4. Seismoelectric Methods of Earth Study
Part 2: Forward Modeling and Inversion Techniques
5. 3-D EM Forward Modeling Using Balance Technique
6. 3-D EM Forward Modeling Using Integral Equations
7. Inverse Problems in Modern Magnetotellurics
8. Joint Robust Inversion of Magnetotelluric and Magnetovariational Data
9. Artificial Neural Network Inversion of EM Data
Part 3 Data Processing, Analysis and Interpretation
10. Arrays of Simultaneous Electromagnetic Soundings: Design, Data Processing and Analysis
11. Magnetotelluric Field Transformations and Their Application in Interpretation
12. Modeling of Magnetotelluric Fields in 3-D Media
13. Regional Magnetotelluric Explorations in Russia
14. EM Studies at Seas and Oceans
Based on lectures given in the First Russian School-Seminar on electromagnetic soundings of the Earth held in Moscow on 15th November, 2003, this book acquaints scientists and technologists with the latest achievements in theory, techniques and practical applications of the methods of electromagnetic sounding. This three part text covers the methods considered for Earth electromagnetic sounding on a global, regional, and local scale; modern methods for solving forward and inverse problems of geoelectrics, particularily contemporary approaches to the EM data modeling and interpretation in the class of three-dimensional models; and the results of regional EM on-land and sea soundings
*Presents theoretical and methodological findings, as well as examples of applications of recently developed algorithms and software in solving practical problems
*Describes the practical importance of electromagnetic data through enabling discussions on a construction of a closed technological cycle, processing, analysis and three-dimensional interpretation
*Updates current findings in the field, especially with MT, magnetovariational and seismo-electriccal methods and the practice of 3D interpretaions
Preface
Part 1: EM Sounding Methods
1. Global 3-D EM Induction in the Solid Earth and the Oceans
2. Magnetovariational Method in Deep Geoelectrics
3. Shallow Investigations by TEM-FAST Technique: Methodology and Examples
4. Seismoelectric Methods of Earth Study
Part 2: Forward Modeling and Inversion Techniques
5. 3-D EM Forward Modeling Using Balance Technique
6. 3-D EM Forward Modeling Using Integral Equations
7. Inverse Problems in Modern Magnetotellurics
8. Joint Robust Inversion of Magnetotelluric and Magnetovariational Data
9. Artificial Neural Network Inversion of EM Data
Part 3 Data Processing, Analysis and Interpretation
10. Arrays of Simultaneous Electromagnetic Soundings: Design, Data Processing and Analysis
11. Magnetotelluric Field Transformations and Their Application in Interpretation
12. Modeling of Magnetotelluric Fields in 3-D Media
13. Regional Magnetotelluric Explorations in Russia
14. EM Studies at Seas and Oceans
PrefacePart 1: EM Sounding Methods1. Global 3-D EM Induction in the Solid Earth and the Oceans2. Magnetovariational Method in Deep Geoelectrics3. Shallow Investigations by TEM-FAST Technique: Methodology and Examples4. Seismoelectric Methods of Earth Study Part 2: Forward Modeling and Inversion Techniques5. 3-D EM Forward Modeling Using Balance Technique 6. 3-D EM Forward Modeling Using Integral Equations 7. Inverse Problems in Modern Magnetotellurics8. Joint Robust Inversion of Magnetotelluric and Magnetovariational Data9. Artificial Neural Network Inversion of EM DataPart 3 Data Processing, Analysis and Interpretation10. Arrays of Simultaneous Electromagnetic Soundings: Design, Data Processing and Analysis11. Magnetotelluric Field Transformations and Their Application in Interpretation12. Modeling of Magnetotelluric Fields in 3-D Media13. Regional Magnetotelluric Explorations in Russia14. EM Studies at Seas and Oceans
Acquaints the scientists and technologists engaged in this field of science with the latest achievements in theory, techniques and practical applications of the methods of electromagnetic sounding
With over 30 years’ geophysics experience, Dr. Spichak’s main research interests include joint interpretation of electromagnetic and other geophysical data, indirect estimation of the Earth’s physical properties from the ground electromagnetic data, and computational electromagnetics. Spichak has authored and edited 8 books with Elsevier, including Electromagnetic Sounding of the Earth's Interior (2015). He is the winner of the Gamburtsev award for the monograph “Magnetotelluric fields in three-dimensional models of geoelectrics (1999) and the Schmidt medal for outstanding achievements in Geophysics (2010).
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