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" Microscopic and macroscopic simulation : "
Peter Mora
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BL
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| Record Number
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719787
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| Doc. No
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b539480
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| Main Entry
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Peter Mora
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| Title & Author
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Microscopic and macroscopic simulation : : towards predictive modelling of the earthquake process.\ Peter Mora
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| Publication Statement
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Basel: Birkhäuser, 2001
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| Series Statement
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PAGEOPH topical volumes
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| Page. NO
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blz. 1817-2383. ; .. cm.
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| ISBN
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376436503X
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: 9783764365035
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| Contents
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Microscopic Simulation.- Numerical Simulation of Localisation Phenomena in a Fault Zone.- Shear Heating in Granular Layers.- Extension of the Lattice Solid Model to Incorporate Temperature Related Effects.- Hybrid Modelling of Coupled Pore Fluid-solid Deformation Problems.- Numerical Simulation of Rock Failure and Earthquake Process on Mesoscopic Scale.- Damage Localization as a Possible Precursor of Earthquake Rupture.- Evolution-induced Catastrophe and its Predictability.- Macroscopic Simulation: Short Time Scale Phenomena (Rupture and Strong Motion).- Dynamic Propagation and Interaction of a Rupture Front on a Planar Fault.- Criticality of Rupture Dynamics in 3-D.- Spontaneous Rupture Propagation on a Non-planar Fault in 3-D Elastic Medium.- Constraints on Stress and Friction from Dynamic Rupture Models of the 1994 Northridge, California, Earthquake.- Parallel 3-D Simulation of Ground Motion for the 1995 Kobe Earthquake: The Component Decomposition Approach.- Computer Simulation of Strong Ground Motion near a Fault Using Dynamic Fault Rupture Modeling: Spatial Distribution of the Peak Ground Velocity Vectors.- Numerical Simulation of Dynamic Process of the Tangshan Earthquake by a New Method-LDDA.- Nonlinear Structural Subsystem of GeoFEM for Fault Zone Analysis.- Macroscopic Simulation: Long Time Scale Phenomena (Earthquake Cycle).- 3-D Physical Modelling of Stress Accumulation Processes at Transcurrent Plate Boundaries.- The Edges of Large Earthquakes and the Epicenters of Future Earthquakes: Stress-induced Correlations in Elastodynamic Fault Models.- Precursory Seismic Activation and Critical-point Phenomena.- Evolution of Stress Deficit and Changing Rates of Seismicity in Cellular Automaton Models of Earthquake Faults.- Accelerating Seismic Energy Release and Evolution of Event Time and Size Statistics: Results from Two Heterogeneous Cellular Automaton Models.- The Plausibility of Long-wavelength Stress Correlation or Stress Magnitude as a Mechanism for Precursory Seismicity: Results from Two Simple Elastic Models.- Scaling, Data Assimilation and Forecasting.- Scale-dependence in Earthquake Processes and Seismogenic Structures.- A Physical Scaling Relation Between the Size of an Earthquake and its Nucleation Zone Size.- Regional Difference in Scaling Laws for Large Earthquakes and its Tectonic Implication.- Continuous GPS Array and Present-day Crustal Deformation of Japan.- Implications of a Statistical Physics Approach for Earthquake Hazard Assessment and Forecasting.- Application of Linked Stress Release Model to Historical Earthquake Data: Comparison between Two Kinds of Tectonic Seismicity.- Development of a New Approach to Earthquake Prediction: Load/Unload Response Ratio (LURR) Theory.
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| Subject
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Earthquake hazard analysis.
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Earthquake prediction.
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Earthquakes.
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| LC Classification
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QE539.2.D36P484 2001
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| Added Entry
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Peter Mora
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