Edward H. Field researcher
Field, Edward H., 1964-
VIAF ID: 66123765 (Personal)
Permalink: http://viaf.org/viaf/66123765
Preferred Forms
- 100 0 _ ‡a Edward H. Field ‡c researcher
- 100 1 _ ‡a Field, Edward H. ‡d 1964-
- 100 1 _ ‡a Field, Edward H., ‡d 1964-
4xx's: Alternate Name Forms (3)
Works
Title | Sources |
---|---|
Accounting for Site Effects in Probabilistic Seismic Hazard Analyses of Southern California: Overview of the SCEC Phase III Report | |
"All Models Are Wrong, but Some Are Useful" | |
Candidate Products for Operational Earthquake Forecasting Illustrated Using the HayWired Planning Scenario, Including One Very Quick (and Not‐So‐Dirty) Hazard‐Map Option | |
A Comparison among Observations and Earthquake Simulator Results for the allcal2 California Fault Model | |
Computing Elastic‐Rebound‐Motivated Earthquake Probabilities in Unsegmented Fault Models: A New Methodology Supported by Physics‐Based Simulators | |
CyberShake: A Physics-Based Seismic Hazard Model for Southern California | |
Development of Final A-Fault Rupture Models for WGCEP/ NSHMP Earthquake Rate Model 2 | |
Did mud contribute to freeway collapse? | |
Earthquake shaking, 2001: | |
Estimating Earthquake-Rupture Rates on a Fault or Fault System | |
First Results of the Regional Earthquake Likelihood Models Experiment | |
How Physics‐Based Earthquake Simulators Might Help Improve Earthquake Forecasts | |
Loss Estimates for a Puente Hills Blind-Thrust Earthquake in Los Angeles, California | |
Managing Large-Scale Workflow Execution from Resource Provisioning to Provenance Tracking: The CyberShake Example | |
A Modified Ground-Motion Attenuation Relationship for Southern California that Accounts for Detailed Site Classification and a Basin-Depth Effect | |
Nonlinear ground-motion amplification by sediments during the 1994 Northridge earthquake | |
Possible Earthquake Rupture Connections on Mapped California Faults Ranked by Calculated Coulomb Linking Stresses | |
The Potential Uses of Operational Earthquake Forecasting: Table 1 | |
Pseudoprospective Evaluation of UCERF3-ETAS Forecasts during the 2019 Ridgecrest Sequence | |
Reducing Time-to-Solution Using Distributed High-Throughput Mega-Workflows - Experiences from SCEC CyberShake | |
Scaling up workflow-based applications | |
SCEC CyberShake Workflows—Automating Probabilistic Seismic Hazard Analysis Calculations | |
The Seismic Hazard Implications of Declustering and Poisson Assumptions Inferred from a Fully Time-Dependent Model | |
Seismic-hazard maps for the conterminous United States, 2014 | |
Stress-based aftershock forecasts made within 24 h postmain shock: Expected north San Francisco Bay area seismicity changes after the 2014 M = 6.0 West Napa earthquake | |
A Summary of Previous Working Groups on California Earthquake Probabilities | |
Time‐Dependent Renewal‐Model Probabilities When Date of Last Earthquake is Unknown | |
UCERF3: A new earthquake forecast for California's complex fault system | |
The UCERF3 Grand Inversion: Solving for the Long-Term Rate of Ruptures in a Fault System | |
Uniform California Earthquake Rupture Forecast, Version 3 (UCERF3)--The Time-Independent Model | |
The Variability of PSV Response Spectra across a Dense Array Deployed during the Northridge Aftershock Sequence |