地震成像與斷裂破碎和愈合(Seismic Imaging, Fault Rock Damage and Heal)
定 價:139 元
- 作者:(美)酈永剛 主編
- 出版時間:2014/3/1
- ISBN:9787040390988
- 出 版 社:高等教育出版社
- 中圖法分類:P631.4
- 頁碼:377
- 紙張:膠版紙
- 版次:1
- 開本:16開
《全球變化與地球系統(tǒng)科學(xué)系列:地震成像與斷裂破碎和愈合》內(nèi)容涵蓋:
全波形三維成像、噪聲格林函數(shù)、數(shù)據(jù)同化方法在地震學(xué)中的應(yīng)用
非勻介質(zhì)中子波包、子射束和子曲射方法應(yīng)用于復(fù)雜構(gòu)造三維成像
斷裂帶導(dǎo)波觀察和三維有限差分法波形模擬,精測斷裂內(nèi)部結(jié)構(gòu)和物理屬性實例
斷裂帶巖體共震破裂和震后愈合監(jiān)測及實例
離散元玻爾茲曼網(wǎng)格模擬方法解析同一液藕合機(jī)制、地震過程破碎模擬應(yīng)用
前震震矩動量釋放和地震發(fā)生率統(tǒng)計學(xué)模型、地震風(fēng)險評估及實例
超低頻地磁信號監(jiān)測和隨機(jī)點方法、地震概率預(yù)報及實例
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-Difierence Methods Using GPUs
1.1.3 The ADER-DG Method
1.1.4 Accelerating the ADER-DG Method Using GPUs
1.2 Automating the Waveforin Selection Process for FWSDA
1.2.1 Seismogram Segmentation
1.2.2 Waveform Selection
1.2.3 Misfit Measurement Selection
1.2.4 Frechet Kernels for Waveforms Selected in the Wavelet Domain
1.3 Application of FWSDA in Southern California
1.3.1 Waveform Selection on Ambient-Noise Green's Funct.ions
1.3.2 Waveform Selection on Earthquake Recordings 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-Difierence Methods Using GPUs
1.1.3 The ADER-DG Method
1.1.4 Accelerating the ADER-DG Method Using GPUs
1.2 Automating the Waveforin Selection Process for FWSDA
1.2.1 Seismogram Segmentation
1.2.2 Waveform Selection
1.2.3 Misfit Measurement Selection
1.2.4 Frechet Kernels for Waveforms Selected in the Wavelet Domain
1.3 Application of FWSDA in Southern California
1.3.1 Waveform Selection on Ambient-Noise Green's Funct.ions
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 Localizations
2.3 Localized Wave Propagators: From Beam to Beamlet
2.3.1 Frame Bearnlets 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 Imaging
2.5 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-Particle
3.2.2 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
3.6 Discussion and Conclusions Acknowledgement References
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4 Co-seismic Damage and Post-Mainshock Healing of Fault Rocks at Landers, Hector Mine and Parkfield, California Viewed by Fault-Zone Trapped Waves
5 Subsurface Rupture Structure of the M 7.1 Darfield and M6.3 Christchurch Earthquake Sequence Viewed with Fault-Zone Trapped Waves
6 Characterizing Pre-shock (Accelerating) Moment Release:A Few Notes on the Analysis of Seismicity -323 7Statistical Modeling of Earthquake Occurrences Based on External Geophysical Observations: With an Illustrative Application to the Ultra-low Frequency Ground Electric Signals Observed in the Beijing Region