Seismic imaging and inversion : application of linear inverse theory
著者
書誌事項
Seismic imaging and inversion : application of linear inverse theory
Cambridge University Press, 2017, c2012
- : pbk
注記
"First paperback edition 2017"--T.p. verso
Includes bibliographical references (p. 397-400) and index
内容説明・目次
内容説明
Extracting information from seismic data requires knowledge of seismic wave propagation and reflection. The commonly used method involves solving linearly for a reflectivity at every point within the Earth, but this book follows an alternative approach which invokes inverse scattering theory. By developing the theory of seismic imaging from basic principles, the authors relate the different models of seismic propagation, reflection and imaging - thus providing links to reflectivity-based imaging on the one hand and to nonlinear seismic inversion on the other. The comprehensive and physically complete linear imaging foundation developed presents new results at the leading edge of seismic processing for target location and identification. This book serves as a fundamental guide to seismic imaging principles and algorithms and their foundation in inverse scattering theory, and is a valuable resource for working geoscientists, scientific programmers and theoretical physicists.
目次
- 1. Introduction: modeling, migration, imaging, and inversion
- 2. Basic migration concepts
- 3. Prestack migration
- 4. Migration limitations
- 5. Models for wave propagation and reflection
- 6. Green's functions
- 7. The scattering potential
- 8. Reflectivity
- 9. Synthesizing reflection data
- 10. f-k migration
- 11. Asymptotic modeling and migration
- 12. Residual asymptotic migration
- 13. Asymptotic data mapping and continuation
- 14. Least-squares asymptotic migration
- Appendix A. Conventions and glossary of terms
- Appendix B. Coordinates, vectors, and identities
- Appendix C. Fourier and radon transforms
- Appendix D. Surface and pointwise reflectivity
- Appendix E. Useful filters
- Appendix F. The phase integral and the stationary phase approximation
- Appendix G. The diffraction integral
- Appendix H. Wave-based, ray-based and reflector-based coordinates.
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