Bio


Jack Baker is a Professor of Civil & Environmental Engineering and Associate Dean for Faculty Affairs in the Stanford Doerr School of Sustainability. He uses probabilistic and statistical tools to quantify and manage disaster risk and resilience. He has made contributions to risk analysis of spatially distributed systems, characterization of earthquake ground motions, and simulation of post-disaster recovery. He is an author of the textbook Seismic Hazard and Risk Analysis, Director of the Stanford Urban Resilience Initiative, Editor-in-Chief of Earthquake Spectra, and a Co-Founder of Haselton Baker Risk Group.

Prior to Stanford, Professor Baker was a visiting researcher at the Swiss Federal Institute of Technology (ETH Zurich). He has degrees in Structural Engineering (Stanford, M.S. 2002, Ph.D. 2005), Statistics (Stanford, M.S. 2004) and Mathematics/Physics (Whitman College, B.A. 2000). His awards include the William B. Joyner Lecture Award from the Seismological Society of America and Earthquake Engineering Research Institute, the Shah Family Innovation Prize from the Earthquake Engineering Research Institute, the CAREER Award from the National Science Foundation, the Early Achievement Research Award from the International Association for Structural Safety and Reliability, the Walter L. Huber Prize from the American Society of Civil Engineers, the Helmut Krawinkler Award from the Structural Engineers Association of Northern California, and the Eugene L. Grant Award for excellence in teaching from Stanford.

Academic Appointments


Honors & Awards


  • William B. Joyner Lecture Award, Seismological Society of America and the Earthquake Engineering Research Institute (2023)
  • PROSE Awards finalist, for Seismic Hazard and Risk Analysis textbook, Association of American Publishers (AAP) (2022)
  • Thorpe Medal, European Council on Computing in Construction (2022)
  • Helmut Krawinkler Award, Structural Engineers Association of Northern California (SEAONC) (2019)
  • Walter L. Huber Civil Engineering Research Prize, American Society of Civil Engineering (ASCE) (2018)
  • Excellence in Structural Engineering Research Award, Structural Engineers Association of California (SEAOC) (2015)
  • Early Achievement Research Award, International Association for Structural Safety and Reliability (IASSAR) (2013)
  • Eugene L. Grant Award, Stanford University (2013)
  • Outstanding Paper Award, Earthquake Engineering Research Institute (2011)
  • CAREER Award, National Science Foundation (2010)
  • Shah Family Innovation Prize, Earthquake Engineering Research Institute (2010)

Professional Education


  • Ph.D., Stanford, Civil & Environmental Engineering (2005)
  • M.A., Stanford, Statistics (2004)
  • M.S., Stanford, Civil & Environmental Engineering (2002)
  • B.A., Whitman College, Mathematics/Physics (2000)

2024-25 Courses


Stanford Advisees


All Publications


  • Post-disaster housing recovery estimation: Data and lessons learned from the 2017 Tubbs and 2018 Camp Fires INTERNATIONAL JOURNAL OF DISASTER RISK REDUCTION Lee, J., Costa, R., Baker, J. W. 2024; 114
  • Probabilistic Regional Liquefaction Hazard and Risk Analysis: A Case Study of Residential Buildings in Alameda, California NATURAL HAZARDS REVIEW Mongold, E., Baker, J. W. 2024; 25 (4)
  • Accounting for ground-motion uncertainty in empirical seismic fragility modeling EARTHQUAKE SPECTRA Bodenmann, L., Baker, J. W., Stojadinovic, B. 2024; 40 (4): 2456-2474
  • Multi-regional economic recovery simulation using an Adaptive Regional Input-Output (ARIO) framework INTERNATIONAL JOURNAL OF DISASTER RISK REDUCTION Zhu, T., Issa, O., Markhvida, M., Costa, R., Baker, J. W. 2024; 112
  • Uncovering Drivers of Atmospheric River Flood Damage Using Interpretable Machine Learning NATURAL HAZARDS REVIEW Bowers, C., Serafin, K. A., Baker, J. W. 2024; 25 (3)
  • Sharing data and code facilitates reproducible and impactful research EARTHQUAKE SPECTRA Baker, J. W., Crowley, H., Wald, D., Rathje, E., Au, S., Bradley, B. A., Burton, H., Cabas, A., Cattari, S., Cauzzi, C., Cavalieri, F., Contreras, S., Costa, R., Eguchi, R. T., Lallemant, D., Lignos, D. G., Maurer, B. W., Molina Hutt, C., Sextos, A., Seyhan, E., Silva, V., Sucuoglu, H., Taciroglu, E., Thompson, E. M. 2024; 40 (3): 2210-2218
  • Modeling post-disaster recovery: Accounting for rental and multi-family housing EARTHQUAKE SPECTRA Mongold, E., Costa, R., Zsarnoczay, A., Baker, J. W. 2024; 40 (2): 1353-1375
  • A model for partially dependent component damage fragilities in seismic risk analysis EARTHQUAKE SPECTRA Baker, J. W., Almeter, E., Cook, D., Liel, A. B., Haselton, C. 2024; 40 (1): 609-628
  • Household Displacement and Return in Disasters: A Review NATURAL HAZARDS REVIEW Paul, N., Galasso, C., Baker, J. 2024; 25 (1)
  • Elevated collapse risk based on decaying aftershock hazard and damaged building fragilities EARTHQUAKE SPECTRA Hulsey, A. M., Galvis, F. A., Baker, J. W., Deierlein, G. G. 2024; 40 (1): 674-704
  • Temporal compounding increases economic impacts of atmospheric rivers in California. Science advances Bowers, C., Serafin, K. A., Baker, J. W. 2024; 10 (3): eadi7905

    Abstract

    Temporally compounding atmospheric river (AR) events cause severe flooding and damage in California. However, the contribution of temporal compounding to AR-induced loss has yet to be systematically quantified. We show that the strongest ARs are more likely to be part of sequences, which are periods of elevated hydrologic hazard associated with temporally clustered ARs. Sequences increase the likelihood of flood-related impacts by 8.3% on AR days and 5.4% on non-AR days, and across two independent loss datasets, we find that ARs within sequences have over three times higher expected losses compared to ARs outside of sequences. Expected losses also increase when the preceding AR is higher intensity, when time since the preceding AR is shorter, and when an AR is the second or later event within a sequence. We conclude that temporal compounding is a critical source of information for predicting an AR's potential consequences.

    View details for DOI 10.1126/sciadv.adi7905

    View details for PubMedID 38241372

    View details for PubMedCentralID PMC10798553

  • Optimal Bridge Retrofitting Selection for Seismic Risk Management Using Genetic Algorithms and Neural Network-Based Surrogate Models JOURNAL OF INFRASTRUCTURE SYSTEMS Silva-Lopez, R., Baker, J. W. 2023; 29 (4)
  • Atmospheric River Sequences as Indicators of Hydrologic Hazard in Historical Reanalysis and GFDL SPEAR Future Climate Projections EARTHS FUTURE Bowers, C., Serafin, K. A., Tseng, K., Baker, J. W. 2023; 11 (12)
  • Effect of near-fault directivity pulses on ground-motion intensity measure correlations from the NGA-West2 data set EARTHQUAKE SPECTRA Tarbali, K., Bradley, B. A., Baker, J. W. 2023; 39 (4): 2263-2280
  • A methodology to estimate postdisaster unmet housing needs using limited data: Application to the 2017 California wildfires. Risk analysis : an official publication of the Society for Risk Analysis Costa, R., Baker, J. W. 2023

    Abstract

    In the United States, assistance from the Department of Housing and Urban Development (HUD) plays an essential role in supporting the postdisaster recovery of states with unmet housing needs. HUD requires data on unmet needs to appropriate recovery funds. Ground truth data are not available for months after a disaster, however, so HUD uses a simplified approach to estimate unmet housing needs. State authorities argue that HUD's simplified approach underestimates the state's needs. This article presents a methodology to estimate postdisaster unmet housing needs that is accurate and relies only on data obtained shortly after a disaster. Data on the number of damaged buildings are combined with models for expected repair costs. Statistical models for aid distributed by the Federal Emergency Management Agency (FEMA) and the Small Business Administration (SBA) are then developed and used to forecast funding provided by those agencies. With these forecasts, the unmet need to be funded by HUD is estimated. The approach can be used for multiple states and hazard types. As validation, the proposed methodology is used to estimate the unmet housing needs following disasters that struck California in 2017. California authorities suggest that HUD's methodology underestimated the state's needs by a factor of 20. Conversely, the proposed methodology can replicate the estimates by the state authorities and provide accounts of losses, the amount of funding from FEMA and SBA, and the total unmet housing needs without requiring data unavailable shortly after a disaster. Thus, the proposed methodology can help improve HUD's funding appropriation without delays.

    View details for DOI 10.1111/risa.14206

    View details for PubMedID 37573254

  • Evaluating the effectiveness of ground motion intensity measures through the lens of causal inference EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Burton, H. V., Baker, J. W. 2023

    View details for DOI 10.1002/eqe.3983

    View details for Web of Science ID 001043744100001

  • Accounting for path and site effects in spatial ground-motion correlation models using Bayesian inference NATURAL HAZARDS AND EARTH SYSTEM SCIENCES Bodenmann, L., Baker, J. W., Stojadinovic, B. 2023; 23 (7): 2387-2402
  • Modeling future economic costs and interdependent industry recovery after earthquakes EARTHQUAKE SPECTRA Markhvida, M., Baker, J. W. 2023; 39 (2): 914-937
  • Simulation-based methodology to identify damage indicators and safety thresholds for post-earthquake evaluation of structures EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Galvis, F. A., Hulsey, A. M., Baker, J. W., Deierlein, G. G. 2023

    View details for DOI 10.1002/eqe.3876

    View details for Web of Science ID 000963063800001

  • A data-driven approach to rapidly estimate recovery potential to go beyond building damage after disasters COMMUNICATIONS EARTH & ENVIRONMENT Loos, S., Lallemant, D., Khan, F., McCaughey, J. W., Banick, R., Budhathoki, N., Baker, J. W. 2023; 4 (1)
  • Quantifying the fragility of coral reefs to hurricane impacts: a case study of the Florida Keys and Puerto Rico ENVIRONMENTAL RESEARCH LETTERS Madden, I. A., Mariwala, A., Lindhart, M., Narayan, S., Arkema, K. K., Beck, M. W., Baker, J. W., Suckale, J. 2023; 18 (2)
  • Machine-learning-based optimization framework to support recovery-based design Earthquake Engineering & Structural Dynamics Issa, O., Silva-Lopez, R., Baker, J. W., Burton, H. V. 2023

    View details for DOI 10.1002/eqe.3860

  • Use of corridors to select bridges to retrofit in road networks in seismic regions SUSTAINABLE AND RESILIENT INFRASTRUCTURE Silva-Lopez, R., Baker, J. W. 2022; 7 (6): 901-917
  • Simulating post-disaster temporary housing needs for displaced households and out-of-town contractors EARTHQUAKE SPECTRA Wang, C., Costa, R., Baker, J. W. 2022; 38 (4): 2922-2940
  • Integrating Place Attachment into Housing Recovery Simulations to Estimate Population Losses NATURAL HAZARDS REVIEW Costa, R., Wang, C., Baker, J. W. 2022; 23 (4)
  • Efficacy of Damage Data Integration: A Comparative Analysis of Four Major Earthquakes NATURAL HAZARDS REVIEW Loos, S., Levitt, J., Tomozawa, K., Baker, J., Lallemant, D. 2022; 23 (4)
  • Commuter welfare-based probabilistic seismic risk assessment of regional road networks RELIABILITY ENGINEERING & SYSTEM SAFETY Silva-Lopez, R., Bhattacharjee, G., Poulos, A., Baker, J. W. 2022; 227
  • High-resolution post-earthquake recovery simulation: Impact of safety cordons EARTHQUAKE SPECTRA Hulsey, A. M., Baker, J. W., Deierlein, G. G. 2022; 38 (3): 2061-2087
  • A performance-based approach to quantify atmospheric river flood risk NATURAL HAZARDS AND EARTH SYSTEM SCIENCES Bowers, C., Serafin, K. A., Baker, J. 2022; 22 (4): 1371-1393
  • Deep Learning-Based Retrofitting and Seismic Risk Assessment of Road Networks JOURNAL OF COMPUTING IN CIVIL ENGINEERING Silva-Lopez, R., Baker, J. W., Poulos, A. 2022; 36 (2)
  • Evaluation of Earthquake Response Spectra Directionality Using Stochastic Simulations BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Poulos, A., Miranda, E., Baker, J. W. 2022; 112 (1): 307-315

    View details for DOI 10.1785/0120210101

    View details for Web of Science ID 000753945700003

  • Evaluation of Intensity Prediction Equations (IPEs) for Small-Magnitude Earthquakes BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Teng, G., Baker, J. W., Wald, D. J. 2022; 112 (1): 316-330

    View details for DOI 10.1785/0120210150

    View details for Web of Science ID 000754051900001

  • Post shut-in hazard for hydraulic-fracturing-induced earthquakes: analysis using data from the Guy-Greenbrier earthquake sequence JOURNAL OF SEISMOLOGY Teng, G., Baker, J. W. 2022
  • Digital technologies can enhance climate resilience of critical infrastructure CLIMATE RISK MANAGEMENT Argyroudis, S. A., Aristotels Mitoulis, S., Chatzi, E. W., Baker, J. W., Brilakis, I., Gkoumas, K., Vousdoukas, M., Hynes, W., Carluccio, S., Keou, O., Frangopol, D. M., Linkov, I. 2022; 35
  • Preliminary National-Scale Seismic Risk Assessment of Natural Gas Pipelines in the United States Kwong, N., Jaiswal, K. S., Luco, N., Baker, J. W., Ludwig, K. A., Davis, C. A., Yu, K., Taciroglu, E. AMER SOC CIVIL ENGINEERS. 2022: 99-110
  • Using Global Variance-Based Sensitivity Analysis to Prioritize Bridge Retrofits for Low-Probability, High-Cost Earthquakes Bhattacharjee, G., Baker, J. W., Davis, C. A., Yu, K., Taciroglu, E. AMER SOC CIVIL ENGINEERS. 2022: 797-808
  • Incorporating Infrastructure Damage and Household Disaster Preparedness to Assess Emergency Water Needs Costa, R., Wang, C., Baker, J. W., Davis, C. A., Yu, K., Taciroglu, E. AMER SOC CIVIL ENGINEERS. 2022: 434-442
  • Evaluation of Conditional Mean Spectra Code Criteria for Ground Motion Selection Journal of Structural Engineering Bassman, T. J., Zhong, K., Baker, J. W. 2022
  • Site-specific adjustment framework for incremental dynamic analysis (SAF-IDA) Earthquake Spectra Zhong, K., Chandramohan, R., Baker, J. W., Deierlein, G. G. 2022
  • Smote-Lasso Model of Business Recovery over Time: Case Study of the 2011 Tohoku Earthquake NATURAL HAZARDS REVIEW Costa, R., Baker, J. 2021; 22 (4)
  • Community detection in spatial correlation graphs: Application to non-stationary ground motion modeling COMPUTERS & GEOSCIENCES Chen, Y., Baker, J. W. 2021; 154
  • Nonstationary spatial correlation in New Zealand strong ground-motion data EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Chen, Y., Bradley, B. A., Baker, J. W. 2021

    View details for DOI 10.1002/eqe.3516

    View details for Web of Science ID 000673668900001

  • Using global variance-based sensitivity analysis to prioritise bridge retrofits in a regional road network subject to seismic hazard STRUCTURE AND INFRASTRUCTURE ENGINEERING Bhattacharjee, G., Baker, J. W. 2021
  • A subset of CyberShake ground-motion time series for response-history analysis EARTHQUAKE SPECTRA Baker, J. W., Rezaeian, S., Goulet, C. A., Luco, N., Teng, G. 2021; 37 (2): 1162-1176
  • G-DIF: A geospatial data integration framework to rapidly estimate post-earthquake damage EARTHQUAKE SPECTRA Loos, S., Lallemant, D., Baker, J., McCaughey, J., Yun, S., Budhathoki, N., Khan, F., Singh, R. 2020; 36 (4): 1695–1718
  • Variance-based sensitivity analyses and uncertainty quantification for FEMA P-58 consequence predictions EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Cremen, G., Baker, J. W. 2020

    View details for DOI 10.1002/eqe.3370

    View details for Web of Science ID 000580658400001

  • Risk-Informed Recommendations for Managing Hydraulic Fracturing-Induced Seismicity via Traffic Light Protocols BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Schultz, R., Beroza, G., Ellsworth, W., Baker, J. 2020; 110 (5): 2411–22

    View details for DOI 10.1785/0120200016

    View details for Web of Science ID 000575192300027

  • Short-Term Probabilistic Hazard Assessment in Regions of Induced Seismicity BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Teng, G., Baker, J. W. 2020; 110 (5): 2441–53

    View details for DOI 10.1785/0120200081

    View details for Web of Science ID 000575192300029

  • Statistical learning techniques for the estimation of lifeline network performance and retrofit selection RELIABILITY ENGINEERING & SYSTEM SAFETY Wu, J., Baker, J. W. 2020; 200
  • Ground motion spatial correlation fitting methods and estimation uncertainty EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Baker, J. W., Chen, Y. 2020

    View details for DOI 10.1002/eqe.3322

    View details for Web of Science ID 000551468400001

  • Quantification of disaster impacts through household well-being losses NATURE SUSTAINABILITY Markhvida, M., Walsh, B., Hallegatte, S., Baker, J. 2020
  • Modeling post-earthquake business recovery time: An analytical framework INTERNATIONAL JOURNAL OF DISASTER RISK REDUCTION Cremen, G., Seville, E., Baker, J. W. 2020; 42
  • A spatial cross-correlation model for ground motion spectral accelerations at multiple periods (vol 42, pg 397, 2013) EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Loth, C., Baker, J. W. 2019

    View details for DOI 10.1002/eqe.3233

    View details for Web of Science ID 000504359300001

  • Spatial Correlations in CyberShake Physics-Based Ground-Motion Simulations BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Chen, Y., Baker, J. W. 2019; 109 (6): 2447–58

    View details for DOI 10.1785/0120190065

    View details for Web of Science ID 000499983200021

  • Seismicity Declustering and Hazard Analysis of the Oklahoma-Kansas Region BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Teng, G., Baker, J. W. 2019; 109 (6): 2356–66

    View details for DOI 10.1785/0120190111

    View details for Web of Science ID 000499983200014

  • Using model error in response history analysis to evaluate component calibration methods EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Zsarnoczay, A., Baker, J. W. 2019

    View details for DOI 10.1002/eqe.3234

    View details for Web of Science ID 000498763100001

  • Current Challenges and Future Trends in Analytical Fragility and Vulnerability Modeling EARTHQUAKE SPECTRA Silva, V., Akkar, S., Baker, J., Bazzurro, P., Castro, J., Crowley, H., Dolsek, M., Galasso, C., Lagomarsino, S., Monteiro, R., Perrone, D., Pitilakis, K., Vamvatsikos, D. 2019; 35 (4): 1927–52
  • Evaluation of SCEC CyberShake Ground Motions for Engineering Practice EARTHQUAKE SPECTRA Teng, G., Baker, J. 2019; 35 (3): 1311–28
  • A framework for time-varying induced seismicity risk assessment, with application in Oklahoma BULLETIN OF EARTHQUAKE ENGINEERING Gupta, A., Baker, J. W. 2019; 17 (8): 4475–93
  • Ground Motion Selection in the Near-Fault Region Considering Directivity-Induced Pulse Effects EARTHQUAKE SPECTRA Tarbali, K., Bradley, B. A., Baker, J. W. 2019; 35 (2): 759–86
  • Improving FEMA P-58 non-structural component fragility functions and loss predictions (vol 17, pg 1941, 2019) BULLETIN OF EARTHQUAKE ENGINEERING Cremen, G., Baker, J. W. 2019; 17 (4): 1961–62
  • Improving FEMA P-58 non-structural component fragility functions and loss predictions BULLETIN OF EARTHQUAKE ENGINEERING Cremen, G., Baker, J. W. 2019; 17 (4): 1941–60
  • A Methodology for Evaluating Component-Level Loss Predictions of the FEMA P-58 Seismic Performance Assessment Procedure EARTHQUAKE SPECTRA Cremen, G., Baker, J. W. 2019; 35 (1): 193–210
  • An optimization-based decision support framework for coupled pre- and post-earthquake infrastructure risk management STRUCTURAL SAFETY Gomez, C., Baker, J. W. 2019; 77: 1–9
  • Quantifying the benefits of building instruments to FEMA P-58 rapid post-earthquake damage and loss predictions ENGINEERING STRUCTURES Cremen, G., Baker, J. W. 2018; 176: 243–53
  • Unification of Seismic Performance Estimation and Real Estate Investment Analysis to Model Post-Earthquake Building Repair Decisions EARTHQUAKE SPECTRA Markhvida, M., Baker, J. W. 2018; 34 (4): 1787–1808
  • Consideration and Propagation of Ground Motion Selection Epistemic Uncertainties to Seismic Performance Metrics EARTHQUAKE SPECTRA Tarbali, K., Bradley, B. A., Baker, J. W. 2018; 34 (2): 587–610
  • Modeling spatially correlated spectral accelerations at multiple periods using principal component analysis and geostatistics EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Markhvida, M., Ceferino, L., Baker, J. W. 2018; 47 (5): 1107–23

    View details for DOI 10.1002/eqe.3007

    View details for Web of Science ID 000428320600001

  • Spatial and Spectral Interpolation of Ground-Motion Intensity Measure Observations BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Worden, B., Thompson, E. M., Baker, J. W., Bradley, B. A., Luco, N., Wald, D. J. 2018; 108 (2): 866–75

    View details for DOI 10.1785/0120170201

    View details for Web of Science ID 000429116300020

  • An Improved Algorithm for Selecting Ground Motions to Match a Conditional Spectrum JOURNAL OF EARTHQUAKE ENGINEERING Baker, J. W., Lee, C. 2018; 22 (4): 708–23
  • Incorporating Induced Seismicity Source Models and Ground Motion Predictions to Forecast Dynamic Regional Risk Baker, J. W., Gupta, A., Brandenberg, S. J., Manzari, M. T. AMER SOC CIVIL ENGINEERS. 2018: 20–28
  • Assessing Ground-Motion Amplitudes and Attenuation for Small-to-Moderate Induced and Tectonic Earthquakes in the Central and Eastern United States SEISMOLOGICAL RESEARCH LETTERS Gupta, A., Baker, J. W., Ellsworth, W. L. 2017; 88 (5): 1379–89

    View details for DOI 10.1785/0220160199

    View details for Web of Science ID 000416129000016

  • EARTHQUAKE ENGINEERING PRACTICE Guidance on the Utilization of Earthquake-Induced Ground Motion Simulations in Engineering Practice EARTHQUAKE SPECTRA Bradley, B. A., Pettinga, D., Baker, J. W., Fraser, J. 2017; 33 (3): 809–35
  • Response History Analysis for the Design of New Buildings in the NEHRP Provisions and ASCE/SEI 7 Standard: Part II - Structural Analysis Procedures and Acceptance Criteria EARTHQUAKE SPECTRA Haselton, C. B., Fry, A., Hamburger, R. O., Baker, J. W., Zimmerman, R. B., Luco, N., Elwood, K. J., Hooper, J. D., Charney, F. A., Pekelnicky, R. G., Whittaker, A. S. 2017; 33 (2): 397–417
  • Response History Analysis for the Design of New Buildings in the NEHRP Provisions and ASCE/SEI 7 Standard: Part III - Example Applications Illustrating the Recommended Methodology EARTHQUAKE SPECTRA Zimmerman, R. B., Baker, J. W., Hooper, J. D., Bono, S., Haselton, C. B., Engel, A., Hamburger, R. O., Celikbas, A., Jalalian, A. 2017; 33 (2): 419–47
  • Intensity Measure Correlations Observed in the NGA-West2 Database, and Dependence of Correlations on Rupture and Site Parameters EARTHQUAKE SPECTRA Baker, J. W., Bradley, B. A. 2017; 33 (1): 145-156
  • Estimating spatially varying event rates with a change point using Bayesian statistics: Application to induced seismicity STRUCTURAL SAFETY Gupta, A., Baker, J. W. 2017; 65: 1-11
  • Spectral Variability and Its Relationship to Structural Response Estimated from Scaled and Spectrum-Matched Ground Motions EARTHQUAKE SPECTRA Seifried, A. E., Baker, J. W. 2016; 32 (4): 2191-2205
  • Quantifying the impacts of modeling uncertainties on the seismic drift demands and collapse risk of buildings with implications on seismic design checks EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Gokkaya, B. U., Baker, J. W., Deierlein, G. G. 2016; 45 (10): 1661-1683

    View details for DOI 10.1002/eqe.2740

    View details for Web of Science ID 000383688200007

  • Impact of hazard-consistent ground motion duration in structural collapse risk assessment EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Chandramohan, R., Baker, J. W., Deierlein, G. G. 2016; 45 (8): 1357-1379

    View details for DOI 10.1002/eqe.2711

    View details for Web of Science ID 000381622800008

  • Bayesian Treatment of Induced Seismicity in Probabilistic Seismic-Hazard Analysis BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Baker, J. W., Gupta, A. 2016; 106 (3): 860-870

    View details for DOI 10.1785/0120150258

    View details for Web of Science ID 000377504900004

  • Quantifying the Influence of Ground Motion Duration on Structural Collapse Capacity Using Spectrally Equivalent Records EARTHQUAKE SPECTRA Chandramohan, R., Baker, J. W., Deierlein, G. G. 2016; 32 (2): 927-950
  • Coupling mode-destination accessibility with seismic risk assessment to identify at-risk communities RELIABILITY ENGINEERING & SYSTEM SAFETY Miller, M., Baker, J. W. 2016; 147: 60-71
  • A predictive model for fling-step in near-fault ground motions based on recordings and simulations SOIL DYNAMICS AND EARTHQUAKE ENGINEERING Burks, L. S., Baker, J. W. 2016; 80: 119-126
  • Rational Design Spectra for Structural Reliability Assessment Using the Response Spectrum Method EARTHQUAKE SPECTRA Loth, C., Baker, J. W. 2015; 31 (4): 2007-2026
  • Ground motion selection for simulation-based seismic hazard and structural reliability assessment EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Bradley, B. A., Burks, L. S., Baker, J. W. 2015; 44 (13): 2321-2340

    View details for DOI 10.1002/eqe.2588

    View details for Web of Science ID 000361483100010

  • Evaluation of Hybrid Broadband Ground Motion Simulations for Response History Analysis and Design EARTHQUAKE SPECTRA Burks, L. S., Zimmerman, R. B., Baker, J. W. 2015; 31 (3): 1691-1710
  • Characterizing and Responding to Seismic Risk Associated with Earthquakes Potentially Triggered by Fluid Disposal and Hydraulic Fracturing SEISMOLOGICAL RESEARCH LETTERS Walters, R. J., Zoback, M. D., Baker, J. W., Beroza, G. C. 2015; 86 (4): 1110-1118

    View details for DOI 10.1785/0220150048

    View details for Web of Science ID 000357353900008

  • Ground-motion intensity and damage map selection for probabilistic infrastructure network risk assessment using optimization EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Miller, M., Baker, J. 2015; 44 (7): 1139-1156

    View details for DOI 10.1002/eqe.2506

    View details for Web of Science ID 000353052000008

  • Ground motion directionality in the 2010-2011 Canterbury earthquakes EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Bradley, B. A., Baker, J. W. 2015; 44 (3): 371-384

    View details for DOI 10.1002/eqe.2474

    View details for Web of Science ID 000349313300003

  • Efficient Analytical Fragility Function Fitting Using Dynamic Structural Analysis EARTHQUAKE SPECTRA Baker, J. W. 2015; 31 (1): 579-599
  • An Efficient Algorithm to Identify Strong-Velocity Pulses in Multicomponent Ground Motions BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Shahi, S. K., Baker, J. W. 2014; 104 (5): 2456-2466

    View details for DOI 10.1785/0120130191

    View details for Web of Science ID 000343645700024

  • NGA-West2 Models for Ground Motion Directionality EARTHQUAKE SPECTRA Shahi, S. K., Baker, J. W. 2014; 30 (3): 1285-1300
  • Validation of Ground-Motion Simulations through Simple Proxies for the Response of Engineered Systems BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Burks, L. S., Baker, J. W. 2014; 104 (4): 1930-1946

    View details for DOI 10.1785/0120130276

    View details for Web of Science ID 000343233600027

  • NGA-West2 Research Project EARTHQUAKE SPECTRA Bozorgnia, Y., Abrahamson, N. A., Al Atik, L., Ancheta, T. D., Atkinson, G. M., Baker, J. W., Baltay, A., Boore, D. M., Campbell, K. W., Chiou, B. S., Darragh, R., Day, S., Donahue, J., Graves, R. W., Gregor, N., Hanks, T., Idriss, I. M., Kamai, R., Kishida, T., Kottke, A., Mahin, S. A., Rezaeian, S., Rowshandel, B., Seyhan, E., Shahi, S., Shantz, T., Silva, W., Spudich, P., Stewart, J. P., Watson-Lamprey, J., Wooddell, K., Youngs, R. 2014; 30 (3): 973-987
  • Comparison of NGA-West2 Directivity Models EARTHQUAKE SPECTRA Spudich, P., Rowshandel, B., Shahi, S. K., Baker, J. W., Chiou, B. S. 2014; 30 (3): 1199-1221
  • Rapid Earthquake Characterization Using MEMS Accelerometers and Volunteer Hosts Following the M 7.2 Darfield, New Zealand, Earthquake BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Lawrence, J. F., Cochran, E. S., Chung, A., Kaiser, A., Christensen, C. M., Allen, R., Baker, J. W., Fry, B., Heaton, T., Kilb, D., Kohler, M. D., Taufer, M. 2014; 104 (1): 184-192

    View details for DOI 10.1785/0120120196

    View details for Web of Science ID 000330579800012

  • Rapid Earthquake Characterization Using MEMS Accelerometers and Volunteer Hosts Following the M 7.2 Darfield, New Zealand, Earthquake Lawrence, J., F., Cochran, E., S., Chung, A., Kaiser, A., Christensen, C., M., Allen, R., Baker, J. W. 2014; 1 (104): 1
  • A modular framework for performance-based durability engineering: From exposure to impacts STRUCTURAL SAFETY Flint, M. M., Baker, J. W., Billington, S. L. 2014; 50: 78-93
  • Stochastic Model for Earthquake Ground Motion Using Wavelet Packets BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Yamamoto, Y., Baker, J. W. 2013; 103 (6): 3044-3056

    View details for DOI 10.1785/0120120312

    View details for Web of Science ID 000327319900006

  • Conditional spectrum-based ground motion selection. Part II: Intensity-based assessments and evaluation of alternative target spectra EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Lin, T., Haselton, C. B., Baker, J. W. 2013; 42 (12): 1867-1884

    View details for DOI 10.1002/eqe.2303

    View details for Web of Science ID 000324020100008

  • Conditional spectrum-based ground motion selection. Part I: Hazard consistency for risk-based assessments EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Lin, T., Haselton, C. B., Baker, J. W. 2013; 42 (12): 1847-1865

    View details for DOI 10.1002/eqe.2301

    View details for Web of Science ID 000324020100007

  • Use of Fragile Geologic Structures as Indicators of Unexceeded Ground Motions and Direct Constraints on Probabilistic Seismic Hazard Analysis BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Baker, J. W., Abrahamson, N. A., Whitney, J. W., Board, M. P., Hanks, T. C. 2013; 103 (3): 1898-1911

    View details for DOI 10.1785/0120120202

    View details for Web of Science ID 000320102100018

  • Conditional Spectrum Computation Incorporating Multiple Causal Earthquakes and Ground-Motion Prediction Models BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Lin, T., Harmsen, S. C., Baker, J. W., Luco, N. 2013; 103 (2A): 1103-1116

    View details for DOI 10.1785/0120110293

    View details for Web of Science ID 000316406800033

  • A spatial cross-correlation model of spectral accelerations at multiple periods EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Loth, C., Baker, J. W. 2013; 42 (3): 397-417

    View details for DOI 10.1002/eqe.2212

    View details for Web of Science ID 000314979600005

  • Stochastic model for earthquake ground motion using wavelet packets. Bulletin of the Seismological Society of America Yamamoto, Y., Baker, J., W. 2013; 6 (103): 1
  • A Framework for Selecting A Suite Of Ground-Motion Intensity Maps Consistent With Both Ground-Motion Intensity And Network Performance Hazards For Infrastructure Networks. Miller, M., Baker, J., W. 2013
  • A spatial cross-correlation model of ground motion spectral accelerations at multiple periods. Earthquake Engineering & Structural Dynamics Loth, C., Baker, J., W. 2013; 3 (42): 397–417
  • Trade-offs in ground motion selection techniques for collapse assessment of structures. Baker, J., W. 2013
  • Introducing Adaptive Incremental Dynamic Analysis: A new tool for linking ground motion selection and structural response assessment. Lin, T., Baker, J., W. 2013
  • Incorporating model uncertainty in collapse reliability assessment of buildings. Ugurhan, B., Baker, J., W., Deierlein, G., G. 2013
  • Extreme Ground Motions And Yucca Mountain US Geological Survey, Reston, Virginia Hanks, T., C., Abrahamson, N., A., Baker, J., W., Boore, D., M., Board, M., Brune, J., N. 2013: 1
  • Risk communication for critical civil infrastructure systems. Baker, J., W., Coray, J., DeStefano, P., Duenas-Osorio, L., King, S., Manuel, L. 2013
  • Directionality models for the NGA West 2 project. Shahi, S., K., Baker, J., W. 2013
  • Reliability-based calibration of design seismic response spectra and structural acceptance criteria. Loth, C., Baker, J., W. 2013
  • Final Report of the NGA-West2 Directivity Working Group. Spudich, P., Bayless, J., Baker, J., W., Chiou, B., S. J., Rowshandel, B., Shahi, S., K. 2013
  • Influence of ground motion spectral shape and duration on seismic collapse risk. Chandramohan, R., Lin, T., Baker, J., W., Deierlein, G., G. 2013
  • Influence of Ground Motion Duration on the Collapse Response of Bridge Structures. Chandramohan, R., Baker, J., W., Deierlein, G., G. 2013
  • Occurrence of negative epsilon in seismic hazard analysis deaggregation, and its impact on target spectra computation EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Burks, L. S., Baker, J. W. 2012; 41 (8): 1241-1256

    View details for DOI 10.1002/eqe.1183

    View details for Web of Science ID 000304343000003

  • Characterization of random fields and their impact on the mechanics of geosystems at multiple scales INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS Chen, Q., Seifried, A., Andrade, J. E., Baker, J. W. 2012; 36 (2): 140-165

    View details for DOI 10.1002/nag.999

    View details for Web of Science ID 000298945800003

  • Preliminary NGA-West 2 models for ground-motion directionality. Shahi, S., K., Baker, J., W. 2012
  • GEM-PEER Global GMPEs Project Guidance for Including Near-Fault Effects in Ground Motion Prediction Models. Baker, J., W., Bozorgnia, Y., Di Alessandro, C., Chiou, B., S. J., Erdik, M., Somerville, P., G. 2012
  • Directivity models produced for the Next Generation Attenuation West 2 (NGA-West 2) project. Spudich, P., Watson-Lamprey, J., Somerville, P., G., Bayless, J., Shahi, S., K., Baker, J., W. 2012
  • A probabilistic framework for performance-based durability engineering. Hygrothermal Behaviour, Building Pathology and Durability, Building Pathology and Rehabilitation, Springer-Verlag Flint, M., Baker, J., W., Billington, S., L. 2012: 1
  • Seismic Considerations and Evaluation Approach for ‘Isolated’ Rooftop PV Arrays. Walters, M., Berkowitz, R., Lau, D., Lee, W., Baker, J., W. 2012
  • Preliminary Assessment of Ground Motion Duration Effects on Structural Collapse. Foschaar, J., C., Baker, J., W., Deierlein, G., G. 2012
  • Defining a consistent strategy to model ground motion parameters for the GEM-PEER Global GMPEs Project. Akkar, S., D., Douglas, J., Di Alessandro, C., Campbell, K., W., Somerville, P., G., Cotton, F., Baker, J. W. 2012
  • Selecting and Scaling Earthquake Ground Motions for Performing Response-History Analyses. Haselton, C., B., Whittaker, A., S., Hortacsu, A., Baker, J., W., Bray, J., D., Grant, D., N. 2012
  • Correlation of response spectral values in Japanese ground motions EARTHQUAKES AND STRUCTURES Jayaram, N., Baker, J. W., Okano, H., Ishida, H., McCann, M. W., Mihara, Y. 2011; 2 (4): 357-376
  • A Computationally Efficient Ground-Motion Selection Algorithm for Matching a Target Response Spectrum Mean and Variance EARTHQUAKE SPECTRA Jayaram, N., Lin, T., Baker, J. W. 2011; 27 (3): 797-815

    View details for DOI 10.1193/1.3608002

    View details for Web of Science ID 000293792600008

  • Representation of Bidirectional Ground Motions for Design Spectra in Building Codes EARTHQUAKE SPECTRA Stewart, J. P., Abrahamson, N. A., Atkinson, G. M., Baker, J. W., Boore, D. M., Bozorgnia, Y., Campbell, K. W., Comartin, C. D., Idriss, I. M., Lew, M., Mehrain, M., Moehle, J. P., Naeim, F., Sabol, T. A. 2011; 27 (3): 927-937

    View details for DOI 10.1193/1.3608001

    View details for Web of Science ID 000293792600014

  • An Empirically Calibrated Framework for Including the Effects of Near-Fault Directivity in Probabilistic Seismic Hazard Analysis BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Shahi, S. K., Baker, J. W. 2011; 101 (2): 742-755

    View details for DOI 10.1785/0120100090

    View details for Web of Science ID 000288647000021

  • Conditional Mean Spectrum: Tool for Ground-Motion Selection JOURNAL OF STRUCTURAL ENGINEERING-ASCE Baker, J. W. 2011; 137 (3): 322-331
  • Accounting for Ground-Motion Spectral Shape Characteristics in Structural Collapse Assessment through an Adjustment for Epsilon JOURNAL OF STRUCTURAL ENGINEERING-ASCE Haselton, C. B., Baker, J. W., Liel, A. B., Deierlein, G. G. 2011; 137 (3): 332-344
  • Effects of earthquake source geometry and site conditions on spatial correlation of earthquake ground motion hazard. Baker, J., W., Miller, M. 2011
  • Uncertainty treatment in earthquake modelling using Bayesian probabilistic networks GEORISK-ASSESSMENT AND MANAGEMENT OF RISK FOR ENGINEERED SYSTEMS AND GEOHAZARDS Bayraktarli, Y. Y., Baker, J. W., Faber, M. H. 2011; 5 (1): 44–58
  • Characterization of random fields at multiple scales: An efficient conditional simulation procedure and applications in geomechanics Baker, J. W., Seifried, A., Andrade, J. E., Chen, Q., Faber, M. H., Kohler, J., Nishijima, K. CRC PRESS-TAYLOR & FRANCIS GROUP. 2011: 1145–51
  • Seismic risk assessment of spatially-distributed systems using ground-motion models fitted considering spatial correlation Jayaram, N., Baker, J. W., Faber, M. H., Kohler, J., Nishijima, K. CRC PRESS-TAYLOR & FRANCIS GROUP. 2011: 1462–68
  • Regression models for predicting the probability of near-fault earthquake ground motion pulses, and their period Shahi, S. K., Baker, J. W., Faber, M. H., Kohler, J., Nishijima, K. CRC PRESS-TAYLOR & FRANCIS GROUP. 2011: 1544–52
  • Stochastic model for earthquake ground motions using wavelet packets. Yamamoto, Y., Baker, J., W. 2011
  • Characterization of random fields at multiple scales: an efficient conditional simulation procedure and applications in geomechanics. Baker, J., W., Seifried, A., Andrade, J., E., Chen, Q. 2011
  • Spatial cross-correlation of spectral accelerations at multiple periods: model development and risk assessments considering secondary earthquake effects. Project report, USGS award G10AP00046. Loth, C., Baker, J., W. 2011: 1
  • Capacity design in seismic resistant steel buildings: a reliability-based methodology to establish capacity-design factors. EUROSTEEL Victorsson, V., Deierlein, G., G., Baker, J., W. 2011: 1
  • Seismic risk assessment of spatially-distributed systems using ground-motion models fitted considering spatial correlation. Jayaram, N., Baker, J., W. 2011
  • Regression models for predicting the probability of near-fault earthquake ground motion pulses, and their period. Shahi, S., K., Baker, J., W. 2011
  • Probabilistic Seismic Hazard Deaggregation of Ground Motion Prediction Models. Lin, T., Baker, J., W. 2011
  • New Ground Motion Selection Procedures and Selected Motions for the PEER Transportation Research Program. PEER Technical Report 2011/03. Baker, J., W., Lin, T., Shahi, S., K., Jayaram, N. 2011: 1
  • Uncertainty treatment in earthquake modeling using Bayesian probabilistic networks. GeoRisk Bayraktarli, Y., Y., Baker, J., W., Faber, M., H. 2011; 1 (5): 1
  • Selecting and Scaling Earthquake Ground Motions for Performing Response-History Analyses. NIST GCR 11-917-15. Prepared by the NEHRP Consultants Joint Venture for the National Institute of Standards and Technology NIST, N. 2011: 1
  • A FORM-based analysis of lifeline networks using a multivariate seismic intensity model. Miller, M., Baker, J., W., Lim, H., W., Song, J., Jayaram, N. 2011
  • Considering Spatial Correlation in Mixed-Effects Regression and the Impact on Ground-Motion Models BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Jayaram, N., Baker, J. W. 2010; 100 (6): 3295-3303

    View details for DOI 10.1785/0120090366

    View details for Web of Science ID 000284997900029

  • Efficient sampling and data reduction techniques for probabilistic seismic lifeline risk assessment EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Jayaram, N., Baker, J. W. 2010; 39 (10): 1109-1131

    View details for DOI 10.1002/eqe.988

    View details for Web of Science ID 000280669000003

  • Reliability-based design and optimization of adaptive marine structures COMPOSITE STRUCTURES Young, Y. L., Baker, J. W., Motley, M. R. 2010; 92 (2): 244-253
  • Stochastic model for earthquake ground motions using wavelet packets. Yamamoto, Y., Baker, J., W. 2010
  • Ground-Motion Selection for PEER Transportation Research Program. Jayaram, N., Baker, J., W. 2010
  • Signal Processing and Probabilistic Seismic Hazard Analysis Tools for Characterizing the Impact of Near-Fault Directivity. Shahi, S., K., Baker, J., W. 2010
  • Characterizing spatial cross-correlation between ground-motion spectral accelerations at multiple periods. Jayaram, N., Baker, J., W. 2010
  • Advancement of hazard-consistent ground motion selection: refinements to conditional mean spectrum calculations. PEER Annual Meeting Lin, T., Baker, J., W. 2010: 1
  • Correlation model for spatially distributed ground-motion intensities EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Jayaram, N., Baker, J. W. 2009; 38 (15): 1687-1708

    View details for DOI 10.1002/eqe.922

    View details for Web of Science ID 000272498400002

  • A Probabilistic Method for the Magnitude Estimation of a Historical Damaging Earthquake Using Structural Fragility Functions BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Ryu, H., Kim, J. K., Baker, J. W. 2009; 99 (2A): 520-537

    View details for DOI 10.1785/0120080032

    View details for Web of Science ID 000266181400003

  • Incorporating modeling uncertainties in the assessment of seismic collapse risk of buildings STRUCTURAL SAFETY Liel, A. B., Haselton, C. B., Deierlein, G. G., Baker, J. W. 2009; 31 (2): 197-211
  • Prediction of Inelastic Structural Response Using an Average of Spectral Accelerations. Bianchini, M., Diotallevi, P., Baker, J., W. 2009
  • Efficient sampling techniques for seismic risk assessment of lifelines. Jayaram, N., Baker, J., W. 2009
  • Reliability-based design and optimization of self-twisting composite marine rotors. Motley, M., R., Young, Y., L., Baker, J., W. 2009
  • Review of Recent Ground Motion Studies for Performance-based Engineering. Baker, J., W. 2009
  • Treatment of Uncertainties In Life Cycle Assessment. Baker, J., W., Lepech, M., D. 2009
  • Deaggregation of lifeline risk: Insights for choosing deterministic scenario earthquakes. Jayaram, N., Baker, J., W. 2009
  • Evaluation of Ground Motion Selection and Modification Methods: Predicting Median Interstory Drift Response of Buildings. PEER Technical Report 2009/01, Berkeley, California Haselton, C., B., Baker, J., W., Bozorgnia, Y., Goulet, C., A., Kalkan, E., Luco, N. 2009: 1
  • Statistical tests of the joint distribution of spectral acceleration values BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Jayaram, N., Baker, J. W. 2008; 98 (5): 2231-2243

    View details for DOI 10.1785/0120070208

    View details for Web of Science ID 000259703700009

  • Random porosity fields and their influence on the stability of granular media INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS Andrade, J. E., Baker, J. W., Ellison, K. C. 2008; 32 (10): 1147-1172

    View details for DOI 10.1002/nag.652

    View details for Web of Science ID 000258017100001

  • Vector-valued intensity measures for pulse-like near-fault ground motions ENGINEERING STRUCTURES Baker, J. W., Cornell, C. A. 2008; 30 (4): 1048-1057
  • Correlation of spectral acceleration values from NGA ground motion models EARTHQUAKE SPECTRA Baker, J. W., Jayaram, N. 2008; 24 (1): 299-317

    View details for DOI 10.1193/1.2857544

    View details for Web of Science ID 000256935500013

  • On the assessment of robustness STRUCTURAL SAFETY Baker, J. W., Schubert, M., Faber, M. H. 2008; 30 (3): 253-267
  • Characterization of random fields and their impact on the mechanics of geosystems at multiple scales Seifried, A., Baker, J., W. 2008
  • The importance of considering spectral shape when evaluating building seismic performance under extreme ground motions in SEAOC Convention 2008 Haselton, C., Baker, J., W., Goulet, C., Watson-Lamprey, J., Zareian, F. 2008: 1
  • Ground Motion Target Spectra for Structures Sensitive to Multiple Periods of Excitation: Conditional Mean Spectrum Computation Using Multiple Ground Motion Prediction Models. Baker, J., W., Lin, T. 2008
  • The significance of near-fault effects on liquefaction Green, R., A., Lee, J., White, T., M., Baker, J., W. 2008
  • Converting HAZUS capacity curves to seismic hazard-compatible building fragility functions: Effect of hysteretic models Ryu, H., Luco, N., Baker, J., W., Karaca, E. 2008
  • Towards effective ground motion selection: Implementation of Conditional Mean Spectrum (CMS) Lin, T., Baker, J., W. 2008
  • Seismic risk assessment of lifelines Jayaram, N., Baker, J., W. 2008
  • Assessment of Ground Motion Selection and Modification (GMSM) methods for non-linear dynamic analyses of structures Goulet, C., A, Watson-Lamprey, J., Baker, J., W., Luco, N., Yang, T., Y. 2008
  • Risk-based assessment of robustness: What can it do and what can't it do? in Robustness of Structures, COST Action TU0601 1st Workshop Baker, J., W. 2008: 1
  • Introducing correlation among fragility functions for multiple components Baker, J., W. 2008
  • Effects of spatial correlation of ground motion parameters for multi-site seismic risk assessment: Collaborative research with Stanford University and AIR. Baker, J., W., Jayaram, N. 2008
  • Identification of near-fault velocity pulses and prediction of resulting response spectra Baker, J., W. 2008
  • An Introduction to Probabilistic Seismic Hazard Analysis (PSHA) White Paper, Version 1.3 Baker, J., W. 2008: 1
  • Liquefaction risk assessment using geostatistics to account for soil spatial variability JOURNAL OF GEOTECHNICAL AND GEOENVIRONMENTAL ENGINEERING Baker, J. W., Faber, M. H. 2008; 134 (1): 14-23
  • Vector-valued intensity measures incorporating spectral shape for prediction of structural response JOURNAL OF EARTHQUAKE ENGINEERING Baker, J. W., Cornell, C. A. 2008; 12 (4): 534-554
  • Uncertainty propagation in probabilistic seismic loss estimation STRUCTURAL SAFETY Baker, J. W., Cornell, C. A. 2008; 30 (3): 236-252
  • Explicit directivity-pulse inclusion in probabilistic seismic hazard analysis EARTHQUAKE SPECTRA Tothong, P., Cornell, C. A., Baker, J. W. 2007; 23 (4): 867-891

    View details for DOI 10.1193/1.2790487

    View details for Web of Science ID 000250981900007

  • Probabilistic structural response assessment using vector-valued intensity measures EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Baker, J. W. 2007; 36 (13): 1861-1883

    View details for DOI 10.1002/eqe.700

    View details for Web of Science ID 000250650100004

  • Quantitative classification of near-fault ground motions using wavelet analysis BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Baker, J. W. 2007; 97 (5): 1486-1501
  • Correlation of ground motion intensity parameters used for predicting structural and geotechnical response 10th International Conference on Application of Statistics and Probability in Civil Engineering Baker, J. W. TAYLOR & FRANCIS LTD. 2007: 501–502
  • Principles of risk assessment of engineered systems Faber, M., H., Maes, M., A., Baker, J., W., Vrouwenvelder, T., Takada, T. 2007
  • Automated identification of velocity pulses in near-fault ground motions in Seismological Society of America annual meeting Baker, J., W. 2007: 1
  • Robustness of structural systems -- a new focus for the joint committee on structural safety (JCSS) Canisius, T., D.G., Sorensen, J., D., Baker, J., W. 2007
  • Measuring bias in structural response caused by ground motion scaling Baker, J., W. 2007
  • Decision making subject to aversion of low frequency high consequence events in Special Workshop on Risk Acceptance and Risk Communication Faber, M., H., Schubert, M., Baker, J., W. 2007: 1
  • Modeling spatial correlation of ground motion intensity measures for regional seismic hazard and portfolio loss estimation Park, J., Bazzurro, P., Baker, J., W. 2007
  • Assessing the seismic collapse risk of reinforced concrete frame structures, including the effects of modeling uncertainties in Special Workshop on Risk Acceptance and Risk Communication Liel, A., Haselton, C., Deierlein, G., G., Baker, J., W. 2007: 1
  • Spectral shape, epsilon and record selection EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Baker, J. W., Cornell, C. A. 2006; 35 (9): 1077-1095

    View details for DOI 10.1002/eqe.571

    View details for Web of Science ID 000239034000002

  • Which spectral acceleration are you using? EARTHQUAKE SPECTRA Baker, J. W., Cornell, C. A. 2006; 22 (2): 293-312

    View details for DOI 10.1193/1.2191540

    View details for Web of Science ID 000238376100001

  • Correlation of response spectral values for multicomponent ground motions BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Baker, J. W., Cornell, C. A. 2006; 96 (1): 215-227

    View details for DOI 10.1785/0120050060

    View details for Web of Science ID 000235476900016

  • Spatial covariance of ground motions in NGA data American Geophysical Union (AGU) Fall Meeting Evans, J., R., Baker, J., W. 2006: 1
  • On the quantification of robustness of structures 25th International Conference on Offshore Mechanics and Arctic Engineering (OMAE 2006) Faber, M. H., Maes, M. A., Straub, D., Baker, J. AMER SOC MECHANICAL ENGINEERS. 2006: 79–87
  • On the quantification of robustness of structures Faber, M., Maes, M., A., Straub, D., Baker, J., W. 2006
  • Impact of long-term material degradation on seismic performance of a reinforced concrete bridge Matsuki, S., Billington, S., L., Baker, J., W. 2006
  • Accounting for soil spatial variability when assessing liquefaction risk Baker, J., W., Bayraktarli, Y., Y., Faber, M. 2006
  • Quantitative classification of near-fault ground motions Baker, J., W. 2006
  • Ground motion intensity measures for collapse capacity prediction: Choice of optimal spectral period and effect of spectral shape Haselton, C., Baker, J., W. 2006
  • Geostatistics for modeling of soil spatial variability in Adapazari, Turkey Baker, J., W., Faber, M., H. 2006
  • Sampling strategies to detect threshold excursions in random fields Baker, J., W., Faber, M., H. 2006
  • A vector-valued ground motion intensity measure consisting of spectral acceleration and epsilon EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Baker, J. W., Cornell, C. A. 2005; 34 (10): 1193-1217

    View details for DOI 10.1002/eqe.474

    View details for Web of Science ID 000230977000001

  • Vector-Valued Ground Motion Intensity Measures for Probabilistic Seismic Demand Analysis Ph.D. Thesis, Stanford University Baker, J., W. 2005: 1
  • Disaggregation of Seismic Drift Hazard. Baker, J., W., Cornell, C., A., Tothong, P. 2005
  • Choice of a Vector of Ground Motion Intensity Measures for Seismic Demand Hazard Analysis. Baker, J., W., Cornell, C., A. 2004
  • Uncertainty Specification and Propagation for Loss Estimation Using FOSM Methods PEER Technical Report 2003/07. Baker, J., W., Cornell, C., A. 2003: 1
  • Uncertainty Specification and Propagation for Loss Estimation Using FOSM Methods. Baker, J., W., Cornell, C., A. 2003
  • Uncertainty specification and propagation for loss estimation using FOSM methods APPLICATIONS OF STATISTICS AND PROBABILITY IN CIVIL ENGINEERING, VOLS 1 AND 2 Baker, J. W., Cornell, C. A. 2003: 669-676