David J. Wald

Q: What Schools Are Affiliated With David J. Wald

David J. Wald is affiliated with the following schools: University of Science and Technology of China, California Institute of Technology, Pennsylvania State University, Stanford University

David J. Wald's AcademicInfluence.com Rankings

David J. Wald

Earth Sciences

#1788

World Rank

#2511

Historical Rank

Geophysics

#231

World Rank

#266

Historical Rank

earth-sciences Degrees

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Earth Sciences

David J. Wald's Degrees

PhD Geophysics Stanford University
Bachelors Physics California Institute of Technology

Why Is David J. Wald Influential?

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According to Wikipedia, David Jay Wald is a seismologist with the U.S. Geological Survey at the National Earthquake Information Center in Golden, Colorado. He is an affiliated faculty member at the Colorado School of Mines, and served as the editor-in-chief of the Earthquake Engineering Research Institute's journal, Earthquake Spectra, from 2018–2022. He also served on the Southern California Earthquake Center Science Planning Committee, 2014–2020.

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David J. Wald's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Slab1.0: A three‐dimensional model of global subduction zone geometries (2012) (983)
Characterizing Crustal Earthquake Slip Models for the Prediction of Strong Ground Motion (1999) (867)
Near-Source Ground Motion and its Effects on Flexible Buildings (1995) (779)
Relationships between Peak Ground Acceleration, Peak Ground Velocity, and Modified Mercalli Intensity in California (1999) (778)
Spatial and temporal distribution of slip for the 1992 Landers, California, earthquake (1994) (740)
Review Article Topographic Slope as a Proxy for Seismic Site Conditions and Amplification (2007) (689)
Rupture Process of the 2004 Sumatra-Andaman Earthquake (2005) (662)
TriNet “ShakeMaps”: Rapid Generation of Peak Ground Motion and Intensity Maps for Earthquakes in Southern California (1999) (600)
Source Description of the 1999 Hector Mine, California, Earthquake, Part I: Wavelet Domain Inversion Theory and Resolution Analysis (2002) (468)
The slip history of the 1994 Northridge, California, earthquake determined from strong-motion, teleseismic, GPS, and leveling data (1996) (433)
Response of High-Rise and Base-Isolated Buildings to a Hypothetical Mw 7.0 Blind Thrust Earthquake (1995) (321)
Rupture model of the 1989 Loma Prieta earthquake from the inversion of strong-motion and broadband teleseismic data (1991) (295)
On the Use of High-Resolution Topographic Data as a Proxy for Seismic Site Conditions (VS30) (2009) (283)
Probabilistic Relationships between Ground‐Motion Parameters and Modified Mercalli Intensity in California (2012) (277)
ShakeMap manual: technical manual, user's guide, and software guide (2005) (264)
“Did You Feel It?” Intensity Data: A Surprisingly Good Measure of Earthquake Ground Motion (2007) (249)
Utilization of the Internet for rapid community intensity maps (1999) (194)
Source Description of the 1999 Hector Mine, California, Earthquake, Part II: Complexity of Slip History (2002) (184)
Slip history and dynamic implications of the 1999 Chi‐Chi, Taiwan, earthquake (2003) (176)
Slip History of the 1995 Kobe, Japan, Earthquake Determined from Strong Motion, Teleseismic, and Geodetic Data (1996) (161)
Topographic Slope as a Proxy for Seismic Site-Conditions (VS30) and Amplification Around the Globe (2007) (145)
USGS "Did You Feel It?" internet-based macroseismic intensity maps (2012) (143)
The seismic response of the Los Angeles basin, California (1998) (140)
Variable-slip rupture model of the great 1923 Kanto, Japan, earthquake: geodetic and body-waveform analysis (1995) (139)
Dynamic stress changes during earthquake rupture (1998) (132)
Global earthquake casualties due to secondary effects: a quantitative analysis for improving rapid loss analyses (2010) (130)
A Revised Ground-Motion and Intensity Interpolation Scheme for ShakeMap (2010) (125)
Creating a Global Building Inventory for Earthquake Loss Assessment and Risk Management (2008) (121)
Developing Empirical Collapse Fragility Functions for Global Building Types (2011) (114)
Active tectonics of the north-central Caribbean: Oblique collision, strain partitioning, and opposing subducted slabs (1998) (113)
Resolution analysis of finite fault source inversion using one- and three-dimensional Green's functions: 2. Combining seismic and geodetic data (2001) (107)
Resolution analysis of finite fault source inversion using one- and three-dimensional Green's functions. 1. Strong motions (2001) (106)
PAGER-CAT: A Composite Earthquake Catalog for Calibrating Global Fatality Models (2009) (105)
A Global Empirical Model for Near‐Real‐Time Assessment of Seismically Induced Landslides (2018) (99)
Rupture process of the 1987 Superstition Hills earthquake from the inversion of strong-motion data (1990) (98)
A Global Building Inventory for Earthquake Loss Estimation and Risk Management (2010) (95)
Earthquake Casualty Models Within the USGS Prompt Assessment of Global Earthquakes for Response (PAGER) System (2011) (93)
An Empirical Model for Global Earthquake Fatality Estimation (2010) (92)
Preliminary Report on the 16 October 1999 M 7.1 Hector Mine, California, Earthquake (2000) (90)
Source study of the 1906 San Francisco earthquake (1993) (90)
Rapid Characterization of the 2015 Mw 7.8 Gorkha, Nepal, Earthquake Sequence and Its Seismotectonic Context (2015) (83)
ShakeCast: Automating and Improving the Use of ShakeMap for Post-Earthquake Decision-Making and Response (2008) (82)
Ground Motion to Intensity Conversion Equations (GMICEs): A Global Relationship and Evaluation of Regional Dependency (2015) (78)
Intensity attenuation for active crustal regions (2012) (78)
A VS30 Map for California with Geologic and Topographic Constraints (2014) (76)
Prompt Assessment of Global Earthquakes for Response (PAGER): A System for Rapidly Determining the Impact of Earthquakes Worldwide (2005) (75)
Development of a globally applicable model for near real-time prediction of seismically induced landslides (2014) (73)
Estimating Casualties for Large Earthquakes Worldwide Using an Empirical Approach (2009) (70)
The Mw 6.0 24 August 2014 South Napa Earthquake (2015) (68)
Spatial and Spectral Interpolation of Ground-Motion Intensity Measure Observations (2018) (66)
88 Hours: The U.S. Geological Survey National Earthquake Information Center Response to the 11 March 2011 Mw 9.0 Tohoku Earthquake (2011) (66)
A Geospatial Liquefaction Model for Rapid Response and Loss Estimation (2015) (64)
Seismicity Associated with the Sumatra–Andaman Islands Earthquake of 26 December 2004 (2007) (64)
Slip distribution and tectonic implication of the 1999 Chi‐Chi, Taiwan, Earthquake (2001) (64)
An Atlas of ShakeMaps and population exposure catalog for earthquake loss modeling (2009) (63)
On the Use of High-Resolution Topographic Data as a Proxy for Seismic Site Conditions ( VS 30 ) by (2009) (61)
Development of the U.S. Geological Survey's PAGER system (Prompt Assessment of Global Earthquakes for Response) (2008) (58)
Overlapping fault planes of the 1971 San Fernando and 1994 Northridge, California earthquakes (1995) (57)
PAGER--Rapid assessment of an earthquake?s impact (2007) (56)
Safety, Reliability, Risk and Life-Cycle Performance of Structures and Infrastructures (2014) (54)
Developing framework to constrain the geometry of the seismic rupture plane on subduction interfaces a priori– a probabilistic approach (2009) (54)
Implications of the Northridge earthquake for strong ground motions from thrust faults (1996) (54)
Strong motion and broadband teleseismic analysis of the 1991 Sierra Madre, California, earthquake (1992) (53)
A dislocation model of the 1994 Northridge, California, earthquake determined from strong ground motions (1994) (50)
Rapid Assessment of earthquake-induced landsliding (2008) (49)
Quantifying and Qualifying USGS ShakeMap Uncertainty (2008) (49)
An Atlas of ShakeMaps for Selected Global Earthquakes (2013) (49)
A global hybrid VS30 map with a topographic slope–based default and regional map insets (2020) (48)
Nonlinear Site Response: Where We're At (A report from a SCEC/PEER seminar and workshop) (1998) (48)
Advancing techniques to constrain the geometry of the seismic rupture plane on subduction interfaces a priori: Higher‐order functional fits (2009) (47)
Southern California seismic network: Caltech/USGS element of TriNet 1997-2001 (2001) (45)
Observed and Simulated Ground Motions in the San Bernardino Basin Region for the Hector Mine, California, Earthquake (2004) (45)
Intensity Prediction Equations for North America (2014) (45)
An open repository of earthquake-triggered ground-failure inventories (2017) (42)
Estimating Economic Losses from Earthquakes Using an Empirical Approach (2013) (42)
Evaluation of Ground-Motion Modeling Techniques for Use in Global ShakeMap - A Critique of Instrumental Ground-Motion Prediction Equations, Peak Ground Motion to Macroseismic Intensity Conversions, and Macroseismic Intensity Predictions in Different Tectonic Settings (2009) (42)
Foreshocks and aftershocks of the great 1857 California earthquake (1999) (41)
A Global Earthquake Discrimination Scheme to Optimize Ground‐Motion Prediction Equation Selection (2012) (41)
Practical limitations of earthquake early warning (2020) (40)
WHE-PAGER PROJECT: A NEW INITIATIVE IN ESTIMATING GLOBAL BUILDING INVENTORY AND ITS SEISMIC VULNERABILITY (2008) (40)
THE 1943-1953 NORTH-CENTRAL CARIBBEAN EARTHQUAKES : ACTIVE TECTONIC SETTING, SEISMIC HAZARDS, AND IMPLICATIONS FOR CARIBBEAN-NORTH AMERICA PLATE MOTIO NS (1998) (39)
Rapid estimation of the economic consequences of global earthquakes (2011) (38)
Improving Near-Real-Time Coseismic Landslide Models: Lessons Learned from the 2016 Kaikōura, New Zealand, Earthquake (2018) (36)
A Teleseismic Study of the 2002 Denali Fault, Alaska, Earthquake and Implications for Rapid Strong-Motion Estimation (2004) (35)
The Effects of Earthquake Measurement Concepts and Magnitude Anchoring on Individuals’ Perceptions of Earthquake Risk (2005) (34)
Use of expert judgment elicitation to estimate seismic vulnerability of selected building types (2012) (33)
Intensity distribution and isoseismal maps for the Nisqually, Washington, earthquake of 28 February 2001 (2002) (33)
Challenges in Rapid Ground Motion Estimation for the Prompt Assessment of Global Urban Earthquakes (2006) (30)
DEVELOPMENT OF A SEMI-EMPIRICAL LOSS MODEL WITHIN THE USGS PROMPT ASSESSMENT OF GLOBAL EARTHQUAKES F (2010) (29)
Simulation of Acceleration Time Histories Close to Large Earthquakes (1988) (29)
FATALITY MODELS FOR THE U . S . GEOLOGICAL SURVEY ’ S PROMPT ASSESSMENT OF GLOBAL EARTHQUAKES FOR RESPONSE ( PAGER ) SYSTEM (2008) (28)
Global Vulnerability Estimation Methods for the Global Earthquake Model (2012) (27)
Aftershocks and Triggered Events of the Great 1906 California Earthquake (2003) (27)
Value at Induced Risk: Injection‐Induced Seismic Risk From Low‐Probability, High‐Impact Events (2020) (26)
A Preliminary Dislocation Model for the 1995 Kobe (Hyogo-ken Nanbu), Japan, Earthquake Determined from Strong Motion and Teleseismic Waveforms (1995) (26)
Advancements in Casualty Modelling Facilitated by the USGS Prompt Assessment of Global Earthquakes for Response (PAGER) System (2011) (25)
Fault Extent Estimation for Near‐Real‐Time Ground‐Shaking Map Computation Purposes (2012) (25)
Instrumental intensity distribution for the Hector Mine, California, and the Chi-Chi, Taiwan, earthquakes: Comparison of two methods (2002) (23)
ShakeMap, a tool for earthquake response (2003) (23)
Topographic Slope as a Proxy for Seismic Site Amplification Correction (2004) (23)
Earthquake Impact Scale (2011) (22)
Computing spatial correlation of ground motion intensities for ShakeMap (2017) (22)
Global Earthquake Response with Imaging Geodesy: Recent Examples from the USGS NEIC (2019) (22)
Using structural damage statistics to derive macroseismic intensity within the Kathmandu valley for the 2015 M7.8 Gorkha, Nepal earthquake (2017) (22)
RAPID EXPOSURE AND LOSS ESTIMATES FOR THE MAY 12, 2008 Mw 7.9 WENCHUAN EARTHQUAKE PROVIDED BY THE U.S. GEOLOGICAL SURVEY'S PAGER SYSTEM (2008) (22)
A new strategy for developing Vs 30 maps (2011) (22)
Developing Vs30 site-condition maps by combining observations with geologic and topographic constraints (2012) (22)
Basin Structure Estimation by Waveform Modeling: Forward and Inverse Methods (2000) (21)
ShakeMap Atlas 2.0: an improved suite of recent historical earthquake ShakeMaps for global hazard analyses and loss model calibration (2012) (19)
Did you feel it? : citizens contribute to earthquake science (2005) (19)
Uncertainty in VS30‐Based Site Response (2016) (17)
USGS “Did You Feel It?”—Science and Lessons From 20 Years of Citizen Science-Based Macroseismology (2020) (17)
The Whittier Narrows, California Earthquake of October 1, 1987—Simulation of Recorded Accelerations (1988) (16)
Comment on “The 1946 Hispaniola earthquake and the tectonics of the North America‐Caribbean Plate Boundary Zone, northeastern Hispaniola” by R. M. Russo and A. Villasenor (1997) (16)
Recorded Ground and Structure Motions (1995) (16)
The Intensity Signature of Induced Seismicity (2018) (15)
Bayesian Estimations of Peak Ground Acceleration and 5% Damped Spectral Acceleration from Modified Mercalli Intensity Data (2003) (14)
A seismically active section of the Southwest Indian Ridge (1986) (14)
ShakeMap operations, policies, and procedures (2021) (13)
Short Note On the Use of High-Resolution Topographic Data as a Proxy for Seismic Site Conditions (V S30 ) (2009) (13)
Human Behavioral Response in the 2019 Ridgecrest, California, Earthquakes: Assessing Immediate Actions Based on Data from “Did You Feel It?” (2020) (13)
Integrating landslide and liquefaction hazard and loss estimates with existing USGS real-time earthquake information products (2017) (12)
USGS approach to real-time estimation of earthquake-triggered ground failure - Results of 2015 workshop (2016) (12)
The USGS Earthquake Notification Service (ENS): Customizable Notifications of Earthquakes around the Globe (2008) (12)
Bathymetry of the Emperor Seamounts (1980) (11)
USGS Near‐Real‐Time Products—and Their Use—for the 2018 Anchorage Earthquake (2019) (11)
Get your science used—Six guidelines to improve your products (2016) (11)
The 1998 Southern California Seismic Network Bulletin (1999) (10)
Estimating structural collapse fragility of generic building typologies using expert judgment (2014) (10)
Scientists of the U.S. Geological Survey and the Southern California Earthquake Center (1994) (10)
Compilation of V S30 data for the United States (2016) (10)
Prompt Assessment of Global Earthquakes for Response (PAGER): An Automated System to Estimate Impact Following Significant Earthquakes Worldwide (2004) (10)
FINANCIAL DECISION-MAKING BASED ON NEAR–REAL-TIME EARTHQUAKE INFORMATION (2016) (10)
Estimating Rupture Dimensions of Three Major Earthquakes in Sichuan, China, for Early Warning and Rapid Loss Estimates (2020) (9)
Compilation of V S 30 Data for the United States (2016) (8)
Collaborative effort to estimate collapse fragility for buildings worldwide: The WHE-PAGER project (2010) (8)
Stronger Peak Ground Motion, Beyond the Threshold to Initiate a Response, Does Not Lead to Larger Stream Discharge Responses to Earthquakes (2018) (8)
Quantifying CISN shakemap uncertainty (2005) (8)
Spatial Variability of Peak Strong Ground Motions: Implications for ShakeMap Interpolations (2003) (8)
A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems (2020) (8)
Money matters: Rapid post-earthquake financial decision-making (2016) (7)
ShakeMap-based prediction of earthquake-induced mass movements in Switzerland calibrated on historical observations (2018) (7)
Increasing earthquake insurance coverage in California via parametric hedges (2018) (7)
Rupture characteristics of California earthquakes (1993) (7)
Integrate urban‐scale seismic hazard analyses with the U.S. National Seismic Hazard Model (2018) (7)
Relationships between Peak Ground Acceleration, Peak Ground Velocity, and Modif Intensity in California (2011) (7)
Implementing ShakeMap in Northern California (2001) (6)
ShakeCast: Facilitating the Use of ShakeMap for Post-Earthquake Decision-Making and Response Within Caltrans and Other Critical Lifeline Communities (2006) (6)
Advanced National Seismic System delivers improved information (2006) (6)
Did you feel it? Community-made earthquake shaking maps (2001) (6)
Quantifying nuisance ground motion thresholds for induced earthquakes (2021) (6)
DEVELOPING CASUALTY AND IMPACT ALERT PROTOCOLS BASED ON THE USGS PROMPT ASSESSMENT OF GLOBAL EARTHQUAKES FOR RESPONSE ( PAGER ) SYSTEM (2009) (5)
Using ShakeMap and ShakeCast to Prioritize Post-Earthquake Dam Inspections (2008) (5)
An efficient Bayesian framework for updating PAGER loss estimates (2020) (5)
The US Geological Survey ground failure product: Near-real-time estimates of earthquake-triggered landslides and liquefaction (2021) (5)
Best practices for using macroseismic intensity and ground motion to intensity conversion equations for hazard and loss models (2010) (5)
Reply to Arthur Frankel's “Comment on ‘Rupture process of the 1987 Superstition Hills earthquake from the inversion of strong-motion data’” (1992) (4)
An empirical relationship between fatalities and instrumental MMI (2008) (4)
Instrumental intensity distribution for the Hector Mine earthquake: a comparison of two methods (2002) (4)
Development of a ShakeMap-based, earthquake response system within caltrans (2003) (4)
Felt reports and intensity assignments for aftershocks and triggered events of the great 1906 California earthquake (2002) (4)
Improving PAGER's real-time earthquake casualty and loss estimation toolkit: a challenge (2012) (4)
DEVELOPING A GLOBAL BUILDING INVENTORY FOR EARTHQUAKE LOSS ASSESSMENT AND RISK MANAGEMENT (2008) (4)
Progress Toward Quantifying CISN ShakeMap Uncertainty (2004) (4)
Surfing the Internet for Strong-Motion Data (1997) (4)
Shear Behavior of Spliced Post-Tensioned Girders (2015) (4)
Impact-based earthquake alerts with the U.S. Geological Survey's PAGER system: what's next? (2012) (3)
ShakeCast - Developing a Tool for Rapid Post-Earthquake Response (2009) (3)
Strong-Motion and Broadband Teleseismic Analysis of the Earthquake for Rupture Process and Hazards Assessment (1996) (3)
Strategies for rapid global earthquake impact estimation: the Prompt Assessment of Global Earthquakes for Response (PAGER) system (2013) (3)
"ShakeMaps" - instant maps of earthquake shaking (2000) (3)
Research Pays Off: ShakeCast: Caltrans Deploys a Tool for Rapid Postearthquake Response (2009) (3)
Adding secondary hazard and ground-truth observations to PAGER's loss modeling (2013) (3)
DEVELOPING AND IMPLEMENTING A REAL-TIME EARTHQUAKE NOTIFICATION SYSTEM FOR NUCLEAR POWER PLANT SITES USING THE USGS SHAKECAST SYSTEM (2011) (3)
Development of a companion questionnaire for “Did You Feel It?”: Assessing response in earthquakes where an earthquake early warning may have been received (2022) (2)
Rapid Assessment of Shaking Impact Following Global Earthquakes (2003) (2)
Comment on “Which Earthquake Accounts Matter?” by Susan E. Hough and Stacey S. Martin (2021) (2)
When will the next great quake strike northern California (1996) (2)
Book review: Why do Buildings Collapse in Earthquakes? Building for Safety in Seismic Areas (2022) (2)
Logistic Regression for Seismically Induced Landslide Predictions: Using Uniform Hazard and Geophysical Layers as Predictor Variables (2012) (2)
Rapid Post-Earthquake Information and Assessment Tools From the U.S. Geological Survey National Earthquake Information Center (2006) (2)
PAGER - Rapid Assessment and Notification of an Earthquake's Impact (2005) (2)
The 1996 Southern California Network Bulletin (1997) (2)
ShakeCast V3 - An Enhanced Tool for Post-Earthquake Response (2014) (2)
Geophysical Advances Triggered by 1964 Great Alaska Earthquake (2014) (2)
Financial Risk Innovation: Development of Earthquake Parametric Triggers for Contingent Credit Instruments (2020) (2)
Grand challenges for integrated USGS science—A workshop report (2017) (2)
Rapid, Global Assessment of the Societal Impacts of Earthquake Induced Landsliding (2006) (2)
Macroseismic Intensity in the Internet Age (2013) (2)
Using ShakeCast and ShakeMap for Lifeline Post-Earthquake Response and Earthquake Scenario Planning (2009) (2)
USING SHAKEMAP AND SHAKECAST FOR POST-EARTHQUAKE RESPONSE AND DAMAGE ASSESSMENT (2009) (1)
SHAKECAST SYSTEM ADVANCEMENTS (2018) (1)
Science Resulting from U.S. Geological Survey's "Did You Feel It?" Citizen Science Portal (2016) (1)
Introducing ShakeMap Atlas 2.0: An improved suite of recent historical earthquake ShakeMaps for global hazard analyses (2011) (1)
Shakemap earthquake scenario: Building Seismic Safety Council 2014 Event Set (BSSC2014) (2016) (1)
Earthquakes, ShakeMap (2019) (1)
State transportation agencies partner to deploy and enhance ShakeCast (2018) (1)
Earthquakes, Did You Feel It? (2020) (1)
Earthquakes, ShakeCast (2020) (1)
Development and utilization of USGS ShakeCast for rapid post-earthquake assessment of critical facilities and infrastructure (2017) (1)
The U.S. Geological Survey Earthquake Hazards Program Website: Summary of Recent and Ongoing Developments (2003) (1)
National earthquake information center strategic plan, 2019–23 (2019) (1)
Bayesian Updating of Seismic Ground Failure Estimates via Causal Graphical Models and Satellite Imagery (2022) (1)
Earthquakes, PAGER (2019) (1)
Coupling ground motion simulation with regional modelling for rapid impact assessment (2017) (1)
Examples of Communicating Uncertainty Applied to Earthquake Hazard and Risk Products (2013) (0)
Fusing Damage Proxy Maps with Geospatial Models for Bayesian Updating of Seismic Ground Failure Estimations: A Case Study in Central Italy (2021) (0)
The southern California network bulletin, January-December 1996 (1997) (0)
Presentation: Citizen Science: Man vs. Machine in Providing Rapid Earthquake Information (2004) (0)
The Future of Earthquake Monitoring at the USGS NEIC (2019) (0)
Seismic multi-hazard and impact estimation via causal inference from satellite imagery (2022) (0)
Modeling subduction zone geometries in 3D: incorporation of local and regional seismic data and uncertainty analyses (2009) (0)
A fault friction driven model of crustal stress in the Los Angeles region (2001) (0)
The USGS-NEIC Response to the 2011-03-11 Mw 9.0 Tohoku Earthquake (2011) (0)
Earthquake Scenarios Based Upon the Data and Methodologies of the U.S. Geological Survey's National Seismic Hazard Mapping Project (2011) (0)
U.S. Geological Survey's ShakeCast: A cloud-based future (2014) (0)
Spliced Texas Girder Bridges (2015) (0)
The USGS National Earthquake Information Center's Response to the Wenchuan, China Earthquake (2008) (0)
"Hey Alexa, Open USGS Did You Feel It?" — Exploring voice-enabled technologies to improve the citizen-science earthquake reporting experience (2018) (0)
RAPID ESTIMATES OF EARTHQUAKE-INDUCED MASS MOVEMENTS AND LIQUEFACTION LIKELIHOODS IN SWITZERLAND VIA SHAKEMAP (2016) (0)
Exploring Interface Coupling Variability Using New Models of Three-Dimensional Subduction Zone Geometries (2010) (0)
On the Accuracy of Vs30-Based Site Response Amplifications in California (2014) (0)
Development of a domestic earthquake alert protocol combining the USGS pager and FEMA Hazus systems (2018) (0)
The USGS Earthquake Scenario Project (2009) (0)
Assessing Direct and Indirect Long-Term Economic Impacts from Earthquakes to the US National Bridge Inventory (2022) (0)
Moving beyond magnitude and epicenter: communicating earthquake hazard and risk with the new USGS earthquake information systems (Mizunami international symposium on earthquake casualties and health consequences: abstract book) (2011) (0)
Quick Finite-Fault Inversion and Strong Motion Prediction: Feasibility, Process, and Developments (2003) (0)
USGS ShakeMap Developments, Implementation, and Derivative Tools (2007) (0)
Book review: The Dynamics of Risk: Changing Technologies and Collective Action in Seismic Events (2020) (0)
Amateur Radio Operators Help Fill Earthquake Donut Holes (2021) (0)
Applying Consequence-Driven Scenario Selection to Lifelines (2022) (0)
Developing ShakeCast statistical fragility analysis framework for rapid post-earthquake assessment (2012) (0)
Distribution of Ground Motions for the 2008 Mw5.4 Chino Hills Earthquake (2008) (0)
Critical ShakeCast Lifeline Users and Their Response Protocols (2022) (0)
The U.S. Geological Survey's Earthquake Summary Posters: A GIS-based Education and Communication Product for Presenting Consolidated Post-Earthquake Information (2003) (0)
Predicting the spatial extent of liquefaction from geospatial and earthquake specific parameters (2014) (0)
New research and tools lead to improved earthquake alerting protocols (2009) (0)
Opportunities and Challenges for the Delivery of a Continuum of Real-time Earthquake Information Products (2019) (0)
The USGS ``Did You Feel It?'' Internet-based Macroseismic Intensity Maps: Lessons Learned from a Decade of Online Data Collection (Invited) (2010) (0)
Do I Really Sound Like That? Communicating Earthquake Science Following Significant Earthquakes at the NEIC (2017) (0)
U.S. GEOLOGICAL SURVEY'S SHAKECAST SYSTEM: A CLOUD-BASED FUTURE (2014) (0)
Secondary Earthquake Hazards in Swiss ShakeMaps (2015) (0)
CHARACTERIZATION OF NEWLY REACTIVATED FAULTING AND POTENTIAL SHAKING HAZARD TO NATIONAL STRATEGIC INFRASTRUCTURE NEAR CUSHING OKLAHOMA (2016) (0)
Rapid assessment of the likelihood of earthquake-induced hazards in Switzerland (2016) (0)
The USGS "Did You Feel It?" Macroseismic Intensity Maps: Lessons Learned from a Decade of Citizen-Empowered Seismology (2012) (0)
ShakeMap at the Pacific Northwest Seismic Network (2007) (0)
A ShakeCast User's Observations on the Benefits of Situational Awareness for Seismic Risk Management (2009) (0)
Five Years of Citizen Science: Macroseismic Data Collection with the USGS Community Internet Intensity Maps (``Did You Feel It?'') (2003) (0)
Strong ground motion in Central Alaska resulting from the Denali Fault M7.9 earthquake of November 3, 2002 (2002) (0)
EQS878187_Supplemental_material – Supplemental material for A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems (2019) (0)
Evaluation of Intensity Prediction Equations (IPEs) for Small-Magnitude Earthquakes (2021) (0)
The Creation and Applications of a Three-Dimensional Model of Global Subduction Zone Geometries (2009) (0)

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