MARC Record from marc_columbia

LEADER: 06292cam a2200673Ma 4500
001 16640061
005 20220716224134.0
006 m o d
007 cr cn|||||||||
008 110927s2012 gw a ob 000 0 eng d
010 $z 2011035607
035 $a(OCoLC)ocn794491465
035 $a(NNC)16640061
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020 $a9783110259032$q(electronic bk.)
020 $a3110259036$q(electronic bk.)
020 $a9781680152074$q(electronic bk.)
020 $a1680152076$q(electronic bk.)
020 $z9783110259025
020 $a9786613626660
020 $a661362666X
020 $a3112204409
020 $a9783112204405
035 $a(OCoLC)794491465$z(OCoLC)784886935$z(OCoLC)932015683$z(OCoLC)961497818$z(OCoLC)962588897$z(OCoLC)990534369$z(OCoLC)991918421$z(OCoLC)1037784492$z(OCoLC)1038611117$z(OCoLC)1045537953$z(OCoLC)1065994148$z(OCoLC)1153534949$z(OCoLC)1162040783
050 4 $aQE539.2.D36$bI46 2012eb
072 7 $aNAT$x009000$2bisacsh
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082 04 $a551.2201/13$223
049 $aZCUA
245 00 $aImaging, modeling and assimilation in seismology /$cedited by Yong-Gang Li.
260 $aBerlin ;$aBoston :$bDe Gruyter,$c©2012.
300 $a1 online resource (x, 262 pages) :$billustrations (some color)
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
347 $adata file$2rda
504 $aIncludes bibliographical references.
505 0 $aImaging, Modeling and Assimilation in Seismology: An Overview; References; Chapter 1 Full-Wave Seismic Data Assimilation: A Unified Methodology for Seismic Waveform Inversion; 1.1 Introduction; 1.2 Generalized Inverse; 1.2.1 Prior Probability Densities; 1.2.2 Bayes' Theorem; 1.2.3 Euler-Lagrange Equations; 1.3 Data Functionals; 1.3.1 Differential Waveforms; 1.3.2 Cross-correlation Measurements; 1.3.3 Generalized Seismological Data Functionals (GSDF); 1.4 The Adjoint Method; 1.4.1 An Example of Adjoint Travel-Time Tomography; 1.4.2 Review of Some Recent Adjoint Waveform Tomography.
505 8 $a1.5 The Scattering-Integral (SI) Method1.5.1 Full-Wave Tomography Based on SI; 1.5.2 Earthquake Source Parameter Inversion Based on SI; 1.6 Discussion; 1.6.1 Computational Challenges; 1.6.2 Nonlinearity; 1.7 Summary; References; Chapter 2 One-Return Propagators and the Applications in Modeling and Imaging; 2.1 Introduction; 2.2 Primary-Only Modeling and One-Return Approximation; 2.3 Elastic One-Return Modeling; 2.3.1 Local Born Approximation; 2.3.2 The Thin Slab Approximation; 2.3.3 Small-Angle Approximation and the Screen Propagator; 2.3.4 Numerical Implementation.
505 8 $a2.3.5 Elastic, Acoustic and Scalar Cases2.4 Applications of One-Return Propagators in Modeling, Imaging and Inversion; 2.4.1 Applications to Modeling; 2.4.2 One-Return Propagators Used in Migration Imaging; 2.4.3 Calculate Finite-Frequency Sensitivity Kernels Used in Velocity Inversion; 2.5 Other Development of One-Return Modeling; 2.5.1 Super-Wide Angle One-Way Propagator; 2.5.2 One-Way Boundary Element Method; 2.6 Conclusion; References; Chapter 3 Fault-Zone Trapped Waves: High-Resolution Characterization of the Damage Zone of the Parkfield San Andreas Fault at Depth; 3.1 Introduction.
505 8 $a3.2 Fault-Zone Trapped Waves at the SAFOD Site3.2.1 The SAFOD Surface Array; 3.2.2 The SAFOD Borehole Seismographs; 3.2.3 Finite-Difference Simulation of Fault-Zone Trapped Waves at SAFOD Site; 3.3 Fault-Zone Trapped Waves at the Surface Array near Parkfield Town; 3.4 Conclusion and Discussion; Acknowledgements; References; Appendix: Modeling Fault-Zone Trapped SH-Love Waves; Chapter 4 Fault-Zone Trapped Waves at a Dip Fault: Documentation of Rock Damage on the Thrusting Longmen-Shan Fault Ruptured in the 2008 M8 Wenchuan Earthquake; 4.1 Geological Setting and Scientific Significance.
505 8 $a4.2 Data and Results4.2.1 Data Collection; 4.2.2 Examples of Waveform Data; 4.3 3-D Finite-Difference Investigations of Trapping Efficiency at the Dipping Fault; 4.3.1 Effect of Fault-Zone Dip Angle; 4.3.2 Effect of Epicentral Distance; 4.3.3 Effect of Source Depth; 4.3.4 Effect of Source away from Vertical and Dip Fault Zones; 4.3.5 Effect of Fault-Zone Width and Velocity Reduction; 4.4 3-D Finite-Difference Simulations of FZTWs at the South Longmen-Shan Fault; 4.5 Fault Rock Co-Seismic Damage and Post-Mainshock Heal; 4.6 Conclusion and Discussion; Acknowledgements; References; Appendix.
520 $aThis work presents current approaches in geophysical research of earthquakes. A global authorship from top institutions presents case studies to model, measure, andmonitor earthquakes. Among others afull-3D waveform tomography method is introduced, as well as propagator methods for modeling and imaging. In particular the earthquake prediction method makes this book a must-read for researchers in the field.
546 $aEnglish.
650 0 $aSeismology$xData processing.
650 0 $aSeismology$xMathematical models.
650 6 $aSismologie$xInformatique.
650 6 $aSismologie$xModèles mathématiques.
650 7 $aNATURE$xEarthquakes & Volcanoes.$2bisacsh
650 7 $aSCIENCE$xEarth Sciences$xSeismology & Volcanism.$2bisacsh
650 7 $aSeismology$xData processing.$2fast$0(OCoLC)fst01111310
650 7 $aSeismology$xMathematical models.$2fast$0(OCoLC)fst01111316
655 0 $aElectronic book.
655 4 $aElectronic books.
700 1 $aLi, Yong-Gang.
776 08 $iPrint version:$tImaging, modeling and assimilation in seismology.$dBerlin ; Boston : De Gruyter, ©2012$w(DLC) 2011035607
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio16640061$zACADEMIC - Oil & Gas Engineering
852 8 $blweb$hEBOOKS