Internformat: Seismic Imaging, Fault Damage and Heal.

Seismic Imaging, Fault Damage and Heal.:

Presenting current approaches in observational and computational seismology, this book introduces advanced methods and techniques by means of case studies in earthquake research. Among others these include solving inverse seismologic problems, tomography for structure imaging, characterizing fault d...

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Bibliographische Detailangaben
1. Verfasser:	Li, Yong-Gang
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Berlin : De Gruyter, 2014.
Schlagworte:	Seismology. Sismologie. SCIENCE > Earth Sciences > Geography. SCIENCE > Earth Sciences > Geology. Seismology Seismologie
Online-Zugang:	Volltext
Zusammenfassung:	Presenting current approaches in observational and computational seismology, this book introduces advanced methods and techniques by means of case studies in earthquake research. Among others these include solving inverse seismologic problems, tomography for structure imaging, characterizing fault damage and healing, seismicity analysis for determining pre-shock moment release, and coupled solid-fluid models.
Beschreibung:	3.5.3 Hydraulic Fracture Simulation.
Beschreibung:	1 online resource (388 pages)
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781523100620 1523100621 9783110369472 3110369478

Internformat

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505	0		\|a Seismic Imaging, Fault Damage and Heal: An Overview; References; 1 Applications of Full-Wave Seismic Data Assimilation (FWSDA); 1.1 Numerical Solutions of Seismic Wave Equations; 1.1.1 Stable Finite-Difference Solutions on Non-Uniform, Discontinuous Meshes; 1.1.2 Accelerating Finite-Difference Methods Using GPUs; 1.1.3 The ADER-DG Method; 1.1.4 Accelerating the ADER-DG Method Using GPUs; 1.2 Automating the Waveform Selection Process for FWSDA; 1.2.1 Seismogram Segmentation; 1.2.2 Waveform Selection; 1.2.3 Misfit Measurement Selection.
505	8		\|a 1.2.4 Fréchet Kernels for Waveforms Selected in the Wavelet Domain1.3 Application of FWSDA in Southern California; 1.3.1 Waveform Selection on Ambient-Noise Green's Functions; 1.3.2 Waveform Selection on Earthquake Recordings; 1.3.3 Inversion Results after 18 times Adjoint Iteration; 1.4 Summary and Discussion; References; 2 Wavefield Representation, Propagation and Imaging Using Localized Waves: Beamlet, Curvelet and Dreamlet; 2.1 Introduction; 2.2 Phase-Space Localization and Wavelet Transform; 2.2.1 Time-Frequency Localization; 2.2.2 Time-Scale Localization.
505	8		\|a 2.2.3 Extension and Generalization of Time-Frequency, Time-Scale Localizations2.3 Localized Wave Propagators: From Beam to Beamlet; 2.3.1 Frame Beamlets and Orthonormal Beamlets; 2.3.2 Beamlet Spreading, Scattering and Wave Propagation in the Beamlet Domain; 2.3.3 Beam Propagation in Smooth Media with High-Frequency Asymptotic Solutions; 2.3.4 Beamlet Propagation in Heterogeneous Media by the Local Perturbation Approach; 2.4 Curvelet and Wave Propagation; 2.4.1 Curvelet and Its Generalization; 2.4.2 Fast Digital Transforms for Curvelets and Wave Atoms.
505	8		\|a 2.4.3 Wave Propagation in Curvelet Domain and the Application to Seismic Imaging2.5 Wave Packet: Dreamlets and Gaussian Packets; 2.5.1 Physical Wavelet and Wave-Packets; 2.5.2 Dreamlet as a Type of Physical Wavelet; 2.5.3 Seismic Data Decomposition and Imaging/Migration Using Dreamlets; 2.5.4 Gaussian Packet Migration and Paraxial Approximation of Dreamlet; 2.6 Conclusions; Acknowledgement; References; 3 Two-way Coupling of Solid-fluid with Discrete Element Model and Lattice Boltzmann Model; 3.1 Introduction; 3.2 Discrete Element Method and the ESyS-Particle Code.
505	8		\|a 3.2.1 A Brief Introduction to the Open Source DEM Code: The ESyS-Particle3.2.2 The Basic Equations; 3.2.3 Contact Laws and Particle Interaction; 3.2.4 Fracture Criterion; 3.3 Lattice Boltzmann Method; 3.3.1 The Basic Principle of LBM; 3.3.2 Boundary Conditions of LBM; 3.3.3 A Brief Introduction to the Open Source LBM Code: OpenLB; 3.4 Two-way Coupling of DEM and LBM; 3.4.1 Moving Boundary Conditions; 3.4.2 Curved Boundary Conditions; 3.4.3 Implementation of Darcy Flow in LBM; 3.5 Preliminary Results; 3.5.1 Bonded Particles Flow in Fluid; 3.5.2 Fluid Flow in the Fractures.
500			\|a 3.5.3 Hydraulic Fracture Simulation.
520			\|a Presenting current approaches in observational and computational seismology, this book introduces advanced methods and techniques by means of case studies in earthquake research. Among others these include solving inverse seismologic problems, tomography for structure imaging, characterizing fault damage and healing, seismicity analysis for determining pre-shock moment release, and coupled solid-fluid models.
504			\|a Includes bibliographical references and index.
650		0	\|a Seismology. \|0 http://id.loc.gov/authorities/subjects/sh85119634
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contents	Seismic Imaging, Fault Damage and Heal: An Overview; References; 1 Applications of Full-Wave Seismic Data Assimilation (FWSDA); 1.1 Numerical Solutions of Seismic Wave Equations; 1.1.1 Stable Finite-Difference Solutions on Non-Uniform, Discontinuous Meshes; 1.1.2 Accelerating Finite-Difference Methods Using GPUs; 1.1.3 The ADER-DG Method; 1.1.4 Accelerating the ADER-DG Method Using GPUs; 1.2 Automating the Waveform Selection Process for FWSDA; 1.2.1 Seismogram Segmentation; 1.2.2 Waveform Selection; 1.2.3 Misfit Measurement Selection. 1.2.4 Fréchet Kernels for Waveforms Selected in the Wavelet Domain1.3 Application of FWSDA in Southern California; 1.3.1 Waveform Selection on Ambient-Noise Green's Functions; 1.3.2 Waveform Selection on Earthquake Recordings; 1.3.3 Inversion Results after 18 times Adjoint Iteration; 1.4 Summary and Discussion; References; 2 Wavefield Representation, Propagation and Imaging Using Localized Waves: Beamlet, Curvelet and Dreamlet; 2.1 Introduction; 2.2 Phase-Space Localization and Wavelet Transform; 2.2.1 Time-Frequency Localization; 2.2.2 Time-Scale Localization. 2.2.3 Extension and Generalization of Time-Frequency, Time-Scale Localizations2.3 Localized Wave Propagators: From Beam to Beamlet; 2.3.1 Frame Beamlets and Orthonormal Beamlets; 2.3.2 Beamlet Spreading, Scattering and Wave Propagation in the Beamlet Domain; 2.3.3 Beam Propagation in Smooth Media with High-Frequency Asymptotic Solutions; 2.3.4 Beamlet Propagation in Heterogeneous Media by the Local Perturbation Approach; 2.4 Curvelet and Wave Propagation; 2.4.1 Curvelet and Its Generalization; 2.4.2 Fast Digital Transforms for Curvelets and Wave Atoms. 2.4.3 Wave Propagation in Curvelet Domain and the Application to Seismic Imaging2.5 Wave Packet: Dreamlets and Gaussian Packets; 2.5.1 Physical Wavelet and Wave-Packets; 2.5.2 Dreamlet as a Type of Physical Wavelet; 2.5.3 Seismic Data Decomposition and Imaging/Migration Using Dreamlets; 2.5.4 Gaussian Packet Migration and Paraxial Approximation of Dreamlet; 2.6 Conclusions; Acknowledgement; References; 3 Two-way Coupling of Solid-fluid with Discrete Element Model and Lattice Boltzmann Model; 3.1 Introduction; 3.2 Discrete Element Method and the ESyS-Particle Code. 3.2.1 A Brief Introduction to the Open Source DEM Code: The ESyS-Particle3.2.2 The Basic Equations; 3.2.3 Contact Laws and Particle Interaction; 3.2.4 Fracture Criterion; 3.3 Lattice Boltzmann Method; 3.3.1 The Basic Principle of LBM; 3.3.2 Boundary Conditions of LBM; 3.3.3 A Brief Introduction to the Open Source LBM Code: OpenLB; 3.4 Two-way Coupling of DEM and LBM; 3.4.1 Moving Boundary Conditions; 3.4.2 Curved Boundary Conditions; 3.4.3 Implementation of Darcy Flow in LBM; 3.5 Preliminary Results; 3.5.1 Bonded Particles Flow in Fluid; 3.5.2 Fluid Flow in the Fractures.
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Lattice Boltzmann Method; 3.3.1 The Basic Principle of LBM; 3.3.2 Boundary Conditions of LBM; 3.3.3 A Brief Introduction to the Open Source LBM Code: OpenLB; 3.4 Two-way Coupling of DEM and LBM; 3.4.1 Moving Boundary Conditions; 3.4.2 Curved Boundary Conditions; 3.4.3 Implementation of Darcy Flow in LBM; 3.5 Preliminary Results; 3.5.1 Bonded Particles Flow in Fluid; 3.5.2 Fluid Flow in the Fractures.</subfield></datafield><datafield tag="500" ind1=" " ind2=" "><subfield code="a">3.5.3 Hydraulic Fracture Simulation.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">Presenting current approaches in observational and computational seismology, this book introduces advanced methods and techniques by means of case studies in earthquake research. 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id	ZDB-4-EBA-ocn882769289
illustrated	Not Illustrated
indexdate	2024-11-27T13:26:04Z
institution	BVB
isbn	9781523100620 1523100621 9783110369472 3110369478
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oclc_num	882769289
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publishDate	2014
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publisher	De Gruyter,
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spelling	Li, Yong-Gang. Seismic Imaging, Fault Damage and Heal. Berlin : De Gruyter, 2014. 1 online resource (388 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Print version record. Seismic Imaging, Fault Damage and Heal: An Overview; References; 1 Applications of Full-Wave Seismic Data Assimilation (FWSDA); 1.1 Numerical Solutions of Seismic Wave Equations; 1.1.1 Stable Finite-Difference Solutions on Non-Uniform, Discontinuous Meshes; 1.1.2 Accelerating Finite-Difference Methods Using GPUs; 1.1.3 The ADER-DG Method; 1.1.4 Accelerating the ADER-DG Method Using GPUs; 1.2 Automating the Waveform Selection Process for FWSDA; 1.2.1 Seismogram Segmentation; 1.2.2 Waveform Selection; 1.2.3 Misfit Measurement Selection. 1.2.4 Fréchet Kernels for Waveforms Selected in the Wavelet Domain1.3 Application of FWSDA in Southern California; 1.3.1 Waveform Selection on Ambient-Noise Green's Functions; 1.3.2 Waveform Selection on Earthquake Recordings; 1.3.3 Inversion Results after 18 times Adjoint Iteration; 1.4 Summary and Discussion; References; 2 Wavefield Representation, Propagation and Imaging Using Localized Waves: Beamlet, Curvelet and Dreamlet; 2.1 Introduction; 2.2 Phase-Space Localization and Wavelet Transform; 2.2.1 Time-Frequency Localization; 2.2.2 Time-Scale Localization. 2.2.3 Extension and Generalization of Time-Frequency, Time-Scale Localizations2.3 Localized Wave Propagators: From Beam to Beamlet; 2.3.1 Frame Beamlets and Orthonormal Beamlets; 2.3.2 Beamlet Spreading, Scattering and Wave Propagation in the Beamlet Domain; 2.3.3 Beam Propagation in Smooth Media with High-Frequency Asymptotic Solutions; 2.3.4 Beamlet Propagation in Heterogeneous Media by the Local Perturbation Approach; 2.4 Curvelet and Wave Propagation; 2.4.1 Curvelet and Its Generalization; 2.4.2 Fast Digital Transforms for Curvelets and Wave Atoms. 2.4.3 Wave Propagation in Curvelet Domain and the Application to Seismic Imaging2.5 Wave Packet: Dreamlets and Gaussian Packets; 2.5.1 Physical Wavelet and Wave-Packets; 2.5.2 Dreamlet as a Type of Physical Wavelet; 2.5.3 Seismic Data Decomposition and Imaging/Migration Using Dreamlets; 2.5.4 Gaussian Packet Migration and Paraxial Approximation of Dreamlet; 2.6 Conclusions; Acknowledgement; References; 3 Two-way Coupling of Solid-fluid with Discrete Element Model and Lattice Boltzmann Model; 3.1 Introduction; 3.2 Discrete Element Method and the ESyS-Particle Code. 3.2.1 A Brief Introduction to the Open Source DEM Code: The ESyS-Particle3.2.2 The Basic Equations; 3.2.3 Contact Laws and Particle Interaction; 3.2.4 Fracture Criterion; 3.3 Lattice Boltzmann Method; 3.3.1 The Basic Principle of LBM; 3.3.2 Boundary Conditions of LBM; 3.3.3 A Brief Introduction to the Open Source LBM Code: OpenLB; 3.4 Two-way Coupling of DEM and LBM; 3.4.1 Moving Boundary Conditions; 3.4.2 Curved Boundary Conditions; 3.4.3 Implementation of Darcy Flow in LBM; 3.5 Preliminary Results; 3.5.1 Bonded Particles Flow in Fluid; 3.5.2 Fluid Flow in the Fractures. 3.5.3 Hydraulic Fracture Simulation. Presenting current approaches in observational and computational seismology, this book introduces advanced methods and techniques by means of case studies in earthquake research. Among others these include solving inverse seismologic problems, tomography for structure imaging, characterizing fault damage and healing, seismicity analysis for determining pre-shock moment release, and coupled solid-fluid models. Includes bibliographical references and index. Seismology. http://id.loc.gov/authorities/subjects/sh85119634 Sismologie. SCIENCE Earth Sciences Geography. bisacsh SCIENCE Earth Sciences Geology. bisacsh Seismology fast Seismologie gnd http://d-nb.info/gnd/4379341-1 has work: Seismic Imaging, Fault Damage and Heal (Text) https://id.oclc.org/worldcat/entity/E39PCXwgDGFHCjf44WtRcdFWTb https://id.oclc.org/worldcat/ontology/hasWork Print version: Li, Yong-Gang. Seismic Imaging, Fault Damage and Heal. Berlin : De Gruyter, ©2014 9783110329919 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=832637 Volltext
spellingShingle	Li, Yong-Gang Seismic Imaging, Fault Damage and Heal. Seismic Imaging, Fault Damage and Heal: An Overview; References; 1 Applications of Full-Wave Seismic Data Assimilation (FWSDA); 1.1 Numerical Solutions of Seismic Wave Equations; 1.1.1 Stable Finite-Difference Solutions on Non-Uniform, Discontinuous Meshes; 1.1.2 Accelerating Finite-Difference Methods Using GPUs; 1.1.3 The ADER-DG Method; 1.1.4 Accelerating the ADER-DG Method Using GPUs; 1.2 Automating the Waveform Selection Process for FWSDA; 1.2.1 Seismogram Segmentation; 1.2.2 Waveform Selection; 1.2.3 Misfit Measurement Selection. 1.2.4 Fréchet Kernels for Waveforms Selected in the Wavelet Domain1.3 Application of FWSDA in Southern California; 1.3.1 Waveform Selection on Ambient-Noise Green's Functions; 1.3.2 Waveform Selection on Earthquake Recordings; 1.3.3 Inversion Results after 18 times Adjoint Iteration; 1.4 Summary and Discussion; References; 2 Wavefield Representation, Propagation and Imaging Using Localized Waves: Beamlet, Curvelet and Dreamlet; 2.1 Introduction; 2.2 Phase-Space Localization and Wavelet Transform; 2.2.1 Time-Frequency Localization; 2.2.2 Time-Scale Localization. 2.2.3 Extension and Generalization of Time-Frequency, Time-Scale Localizations2.3 Localized Wave Propagators: From Beam to Beamlet; 2.3.1 Frame Beamlets and Orthonormal Beamlets; 2.3.2 Beamlet Spreading, Scattering and Wave Propagation in the Beamlet Domain; 2.3.3 Beam Propagation in Smooth Media with High-Frequency Asymptotic Solutions; 2.3.4 Beamlet Propagation in Heterogeneous Media by the Local Perturbation Approach; 2.4 Curvelet and Wave Propagation; 2.4.1 Curvelet and Its Generalization; 2.4.2 Fast Digital Transforms for Curvelets and Wave Atoms. 2.4.3 Wave Propagation in Curvelet Domain and the Application to Seismic Imaging2.5 Wave Packet: Dreamlets and Gaussian Packets; 2.5.1 Physical Wavelet and Wave-Packets; 2.5.2 Dreamlet as a Type of Physical Wavelet; 2.5.3 Seismic Data Decomposition and Imaging/Migration Using Dreamlets; 2.5.4 Gaussian Packet Migration and Paraxial Approximation of Dreamlet; 2.6 Conclusions; Acknowledgement; References; 3 Two-way Coupling of Solid-fluid with Discrete Element Model and Lattice Boltzmann Model; 3.1 Introduction; 3.2 Discrete Element Method and the ESyS-Particle Code. 3.2.1 A Brief Introduction to the Open Source DEM Code: The ESyS-Particle3.2.2 The Basic Equations; 3.2.3 Contact Laws and Particle Interaction; 3.2.4 Fracture Criterion; 3.3 Lattice Boltzmann Method; 3.3.1 The Basic Principle of LBM; 3.3.2 Boundary Conditions of LBM; 3.3.3 A Brief Introduction to the Open Source LBM Code: OpenLB; 3.4 Two-way Coupling of DEM and LBM; 3.4.1 Moving Boundary Conditions; 3.4.2 Curved Boundary Conditions; 3.4.3 Implementation of Darcy Flow in LBM; 3.5 Preliminary Results; 3.5.1 Bonded Particles Flow in Fluid; 3.5.2 Fluid Flow in the Fractures. Seismology. http://id.loc.gov/authorities/subjects/sh85119634 Sismologie. SCIENCE Earth Sciences Geography. bisacsh SCIENCE Earth Sciences Geology. bisacsh Seismology fast Seismologie gnd http://d-nb.info/gnd/4379341-1
subject_GND	http://id.loc.gov/authorities/subjects/sh85119634 http://d-nb.info/gnd/4379341-1
title	Seismic Imaging, Fault Damage and Heal.
title_auth	Seismic Imaging, Fault Damage and Heal.
title_exact_search	Seismic Imaging, Fault Damage and Heal.
title_full	Seismic Imaging, Fault Damage and Heal.
title_fullStr	Seismic Imaging, Fault Damage and Heal.
title_full_unstemmed	Seismic Imaging, Fault Damage and Heal.
title_short	Seismic Imaging, Fault Damage and Heal.
title_sort	seismic imaging fault damage and heal
topic	Seismology. http://id.loc.gov/authorities/subjects/sh85119634 Sismologie. SCIENCE Earth Sciences Geography. bisacsh SCIENCE Earth Sciences Geology. bisacsh Seismology fast Seismologie gnd http://d-nb.info/gnd/4379341-1
topic_facet	Seismology. Sismologie. SCIENCE Earth Sciences Geography. SCIENCE Earth Sciences Geology. Seismology Seismologie
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=832637
work_keys_str_mv	AT liyonggang seismicimagingfaultdamageandheal

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