Sanaz Rezaeian
Sanaz Rezaeian is a research structural engineer, specializing in earthquake hazard analysis, statistics, and risk assessment.
She received her B.S. in Civil Engineering from the University of California, Berkeley in 2004. After working in the industry on design and rehabilitation of structural systems for a year, she received her M.S. and Ph.D. from the Structural Engineering, Mechanics and Materials (SEMM) program of UC Berkeley in 2006 and 2010, respectively. For her doctoral dissertation, Rezaeian focused on identification and simulation of strong earthquake ground motions for engineering applications. In 2010, she joined the Pacific Earthquake Engineering Research center (PEER) as a postdoctoral fellow, where she conducted research on modeling of ground motion prediction equations, developed a new model to scale ground motion intensities for various damping levels of structures, and directed a working group on modeling of vertical component of ground motion. In 2011, Rezaeian received a Mendenall Fellowship award from the U.S. Geological Survey (USGS) to conduct research on ground motion models and assist the national seismic hazard modeling (NSHM) project with implementation of GMPEs in the 2014 NSHMs. Currently, she is leading the seismic desgin task of the USGS NSHM group, working on the next generation of hazard and design models. Current projects involve research and development of earthquake ground motion models for both intensity measures and time-series, as well as their implementation in the current and future USGS National Seismic Hazard Models. Furthermore, Rezaeian studies the effects of these ground motion models on structures and works directly with the engineering users of the USGS products by developing design ground motions and methodologies by which engineers can validate simulated time-series for their specific engineering applications.
Current USGS Projects:
1) National Seismic Hazard Modeling Project (2014 & 2018 NSHM Updates)
The NSHMP develops earthquake ground shaking forecasts for the U.S. and its territories. The “seismic hazard models” task updates the National Seismic Hazard Model (NSHM) on a regular basis to account for the best available science. The updates improve both earthquake source models and ground motion models (GMMs). I serve as a leading member of the NSHMP to update GMMs. My role is to identify shortcomings of current GMMs, research and evaluate new GMMs, develop new weighting schemes for their implementation in the NSHM, and analyze their impact on hazard. I collaborate with model developers outside of the USGS to improve GMMs. I also develop GMMs for various damping ratios for adoption into future hazard models. My research has been implemented in the 2014 USGS NSHMs, published in journals and presented at several scientific meetings. The model I developed for various damping ratios is published in Earthquake Spectra. The NSHMs serve as the basis of
Science and Products
Filter Total Items: 59
Spectral damping scaling factors for horizontal components of ground motions from subduction earthquakes using NGA-Subduction data Spectral damping scaling factors for horizontal components of ground motions from subduction earthquakes using NGA-Subduction data
This article develops global models of damping scaling factors (DSFs) for subduction zone earthquakes that are functions of the damping ratio, spectral period, earthquake magnitude, and distance. The Next Generation Attenuation for subduction earthquakes (NGA-Sub) project has developed the largest uniformly processed database of recorded ground motions to date from seven subduction...
Authors
Sanaz Rezaeian, L. Al Atik, N. M. Kuehn, N. A. Abrahamson, Y. Bozorgnia, S. Mazzoni, Kyle Withers, K. Campbell
The 2018 update of the US National Seismic Hazard Model: Ground motion models in the western US The 2018 update of the US National Seismic Hazard Model: Ground motion models in the western US
The U.S. Geological Survey (USGS) National Seismic Hazard Model (NSHM) is the scientific foundation of seismic design regulations in the United States and is regularly updated to consider the best available science and data. The 2018 update of the conterminous U.S. NSHM includes significant changes to the underlying ground motion models (GMMs), most of which are necessary to enable the...
Authors
Peter M. Powers, Sanaz Rezaeian, Allison Shumway, Mark D. Petersen, Nico Luco, Oliver S. Boyd, Morgan P. Moschetti, Arthur D. Frankel, Eric M. Thompson
The 2018 update of the US National Seismic Hazard Model: Ground motion models in the central and eastern US The 2018 update of the US National Seismic Hazard Model: Ground motion models in the central and eastern US
The United States Geological Survey (USGS) National Seismic Hazard Model (NSHM) is the scientific foundation of seismic design regulations in the United States and is regularly updated to consider the best available science and data. The 2018 update of the conterminous US NSHM includes major changes to the underlying ground motion models (GMMs). Most of the changes are motivated by the...
Authors
Sanaz Rezaeian, Peter M. Powers, Allison Shumway, Mark D. Petersen, Nico Luco, Arthur D. Frankel, Morgan P. Moschetti, Eric M. Thompson, Daniel McNamara
The 2018 update of the US National Seismic Hazard Model: Where, why, and how much probabilistic ground motion maps changed The 2018 update of the US National Seismic Hazard Model: Where, why, and how much probabilistic ground motion maps changed
The 2018 US Geological Survey National Seismic Hazard Model (NSHM) incorporates new data and updated science to improve the underlying earthquake and ground motion forecasts for the conterminous United States. The NSHM considers many new data and component input models: (1) new earthquakes between 2013 and 2017 and updated earthquake magnitudes for some earlier earthquakes; (2) two...
Authors
Mark D. Petersen, Allison Shumway, Peter M. Powers, Charles S Mueller, Morgan P. Moschetti, Arthur D. Frankel, Sanaz Rezaeian, Daniel McNamara, Nico Luco, Oliver S. Boyd, Kenneth S. Rukstales, Kishor S. Jaiswal, Eric M. Thompson, Susan M. Hoover, Brandon Clayton, Edward H. Field, Yuehua Zeng
A subset of CyberShake ground-motion time series for response-history analysis A subset of CyberShake ground-motion time series for response-history analysis
This manuscript describes a subset of CyberShake numerically simulated ground motions that were selected and vetted for use in engineering response-history analyses. Ground motions were selected that have seismological properties and response spectra representative of conditions in the Los Angeles area, based on disaggregation of seismic hazard. Ground motions were selected from millions...
Authors
Jack W. Baker, Sanaz Rezaeian, Christine A. Goulet, Nico Luco, Ganyu Teng
Evaluation of simulated ground motions using probabilistic seismic demand analysis: CyberShake (ver. 15.12) simulations for Ordinary Standard Bridges Evaluation of simulated ground motions using probabilistic seismic demand analysis: CyberShake (ver. 15.12) simulations for Ordinary Standard Bridges
There is a need for benchmarking and validating simulated ground motions in order for them to be utilized by the engineering community. Such validation may be geared towards a specific ground motion simulation method, a target engineering application, and a specific location; the validation presented herein focuses on a bridge engineering application in southern California. Catalogs of...
Authors
Jawad Fayaz, Sanaz Rezaeian, Farzin Zareian
The 2018 update of the US National Seismic Hazard Model: Additional period and site class data The 2018 update of the US National Seismic Hazard Model: Additional period and site class data
As part of the update of the 2018 National Seismic Hazard Model (NSHM) for the conterminous United States (CONUS), new ground motion and site effect models for the central and eastern United States were incorporated, as well as basin depths from local seismic velocity models in four western US (WUS) urban areas. These additions allow us, for the first time, to calculate probabilistic...
Authors
Allison Shumway, Mark D. Petersen, Peter M. Powers, Sanaz Rezaeian, Kenneth S. Rukstales, Brandon Clayton
Procedures for developing multi-period response spectra at non-conterminous United States sites Procedures for developing multi-period response spectra at non-conterminous United States sites
This study complements proposals to the Provisions Update Committee of the Building Seismic Safety Council that would incorporate multi-period response spectra (MPRS) in the 2020 edition of the NEHRP Recommended Seismic Provisions for New Buildings and Other Structures (2020 NEHRP Provisions) and related proposals to the ASCE 7-22 Seismic Subcommittee of the American Society of Civil...
Authors
Mai Tong, Robert D. Hanson, Charles A Kircher, Sanaz Rezaeian, Nico Luco
Proposed multi-period response spectra and ground motion requirements of the 2020 Recommended Provisions and ASCE 7-22 Proposed multi-period response spectra and ground motion requirements of the 2020 Recommended Provisions and ASCE 7-22
This paper summarizes a comprehensive set of proposals to the Provisions Update Committee of the Building Seismic Safety Council that would incorporate multi-period response spectra (MPRS) in the 2020 edition of the NEHRP Recommended Seismic Provisions for New Buildings and Other Structures (2020 NEHRP Provisions) and related proposals to the ASCE 7-22 Seismic Subcommittee of the...
Authors
Charles A Kircher, Sanaz Rezaeian, Nico Luco
The 2018 update of the US National Seismic Hazard Model: Overview of model and implications The 2018 update of the US National Seismic Hazard Model: Overview of model and implications
During 2017–2018, the National Seismic Hazard Model for the conterminous United States was updated as follows: (1) an updated seismicity catalog was incorporated, which includes new earthquakes that occurred from 2013 to 2017; (2) in the central and eastern United States (CEUS), new ground motion models were updated that incorporate updated median estimates, modified assessments of the...
Authors
Mark D. Petersen, Allison Shumway, Peter M. Powers, Charles Mueller, Morgan P. Moschetti, Arthur D. Frankel, Sanaz Rezaeian, Daniel E. McNamara, Nico Luco, Oliver S. Boyd, Kenneth S. Rukstales, Kishor S. Jaiswal, Eric M. Thompson, Susan M. Hoover, Brandon Clayton, Edward H. Field, Yuehua Zeng
Updates to USGS national seismic hazard model (NSHM) and design ground motion maps for 2020 NEHRP recommended provisions Updates to USGS national seismic hazard model (NSHM) and design ground motion maps for 2020 NEHRP recommended provisions
This presentation summarizes the proposed updates to earthquake design ground motions for the 2020 edition of the NEHRP Recommended Seismic Provisions, expected to be incorporated into the ASCE 7-22 Standard. The implications of these updates on the values of design ground motions for example locations in both conterminous and nonconterminous U.S. cities are shown and discussed.
Authors
Sanaz Rezaeian, Nico Luco
Estimation of ground motion variability in the CEUS using simulations Estimation of ground motion variability in the CEUS using simulations
We estimate earthquake ground-motion variability in the central and eastern U.S. (CEUS) by varying the model parameters of a deterministic physics-based and a stochastic site-based simulation method. Utilizing a moderate-magnitude database of recordings, we simulate ground motions for larger-magnitude scenarios M6.0, 6.5, 7.0, 7.5, and 8.0. For the physics-based method, we vary the...
Authors
Xiaodan Sun, Sanaz Rezaeian, Brandon Clayton, Stephen H. Hartzell
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Filter Total Items: 59
Spectral damping scaling factors for horizontal components of ground motions from subduction earthquakes using NGA-Subduction data Spectral damping scaling factors for horizontal components of ground motions from subduction earthquakes using NGA-Subduction data
This article develops global models of damping scaling factors (DSFs) for subduction zone earthquakes that are functions of the damping ratio, spectral period, earthquake magnitude, and distance. The Next Generation Attenuation for subduction earthquakes (NGA-Sub) project has developed the largest uniformly processed database of recorded ground motions to date from seven subduction...
Authors
Sanaz Rezaeian, L. Al Atik, N. M. Kuehn, N. A. Abrahamson, Y. Bozorgnia, S. Mazzoni, Kyle Withers, K. Campbell
The 2018 update of the US National Seismic Hazard Model: Ground motion models in the western US The 2018 update of the US National Seismic Hazard Model: Ground motion models in the western US
The U.S. Geological Survey (USGS) National Seismic Hazard Model (NSHM) is the scientific foundation of seismic design regulations in the United States and is regularly updated to consider the best available science and data. The 2018 update of the conterminous U.S. NSHM includes significant changes to the underlying ground motion models (GMMs), most of which are necessary to enable the...
Authors
Peter M. Powers, Sanaz Rezaeian, Allison Shumway, Mark D. Petersen, Nico Luco, Oliver S. Boyd, Morgan P. Moschetti, Arthur D. Frankel, Eric M. Thompson
The 2018 update of the US National Seismic Hazard Model: Ground motion models in the central and eastern US The 2018 update of the US National Seismic Hazard Model: Ground motion models in the central and eastern US
The United States Geological Survey (USGS) National Seismic Hazard Model (NSHM) is the scientific foundation of seismic design regulations in the United States and is regularly updated to consider the best available science and data. The 2018 update of the conterminous US NSHM includes major changes to the underlying ground motion models (GMMs). Most of the changes are motivated by the...
Authors
Sanaz Rezaeian, Peter M. Powers, Allison Shumway, Mark D. Petersen, Nico Luco, Arthur D. Frankel, Morgan P. Moschetti, Eric M. Thompson, Daniel McNamara
The 2018 update of the US National Seismic Hazard Model: Where, why, and how much probabilistic ground motion maps changed The 2018 update of the US National Seismic Hazard Model: Where, why, and how much probabilistic ground motion maps changed
The 2018 US Geological Survey National Seismic Hazard Model (NSHM) incorporates new data and updated science to improve the underlying earthquake and ground motion forecasts for the conterminous United States. The NSHM considers many new data and component input models: (1) new earthquakes between 2013 and 2017 and updated earthquake magnitudes for some earlier earthquakes; (2) two...
Authors
Mark D. Petersen, Allison Shumway, Peter M. Powers, Charles S Mueller, Morgan P. Moschetti, Arthur D. Frankel, Sanaz Rezaeian, Daniel McNamara, Nico Luco, Oliver S. Boyd, Kenneth S. Rukstales, Kishor S. Jaiswal, Eric M. Thompson, Susan M. Hoover, Brandon Clayton, Edward H. Field, Yuehua Zeng
A subset of CyberShake ground-motion time series for response-history analysis A subset of CyberShake ground-motion time series for response-history analysis
This manuscript describes a subset of CyberShake numerically simulated ground motions that were selected and vetted for use in engineering response-history analyses. Ground motions were selected that have seismological properties and response spectra representative of conditions in the Los Angeles area, based on disaggregation of seismic hazard. Ground motions were selected from millions...
Authors
Jack W. Baker, Sanaz Rezaeian, Christine A. Goulet, Nico Luco, Ganyu Teng
Evaluation of simulated ground motions using probabilistic seismic demand analysis: CyberShake (ver. 15.12) simulations for Ordinary Standard Bridges Evaluation of simulated ground motions using probabilistic seismic demand analysis: CyberShake (ver. 15.12) simulations for Ordinary Standard Bridges
There is a need for benchmarking and validating simulated ground motions in order for them to be utilized by the engineering community. Such validation may be geared towards a specific ground motion simulation method, a target engineering application, and a specific location; the validation presented herein focuses on a bridge engineering application in southern California. Catalogs of...
Authors
Jawad Fayaz, Sanaz Rezaeian, Farzin Zareian
The 2018 update of the US National Seismic Hazard Model: Additional period and site class data The 2018 update of the US National Seismic Hazard Model: Additional period and site class data
As part of the update of the 2018 National Seismic Hazard Model (NSHM) for the conterminous United States (CONUS), new ground motion and site effect models for the central and eastern United States were incorporated, as well as basin depths from local seismic velocity models in four western US (WUS) urban areas. These additions allow us, for the first time, to calculate probabilistic...
Authors
Allison Shumway, Mark D. Petersen, Peter M. Powers, Sanaz Rezaeian, Kenneth S. Rukstales, Brandon Clayton
Procedures for developing multi-period response spectra at non-conterminous United States sites Procedures for developing multi-period response spectra at non-conterminous United States sites
This study complements proposals to the Provisions Update Committee of the Building Seismic Safety Council that would incorporate multi-period response spectra (MPRS) in the 2020 edition of the NEHRP Recommended Seismic Provisions for New Buildings and Other Structures (2020 NEHRP Provisions) and related proposals to the ASCE 7-22 Seismic Subcommittee of the American Society of Civil...
Authors
Mai Tong, Robert D. Hanson, Charles A Kircher, Sanaz Rezaeian, Nico Luco
Proposed multi-period response spectra and ground motion requirements of the 2020 Recommended Provisions and ASCE 7-22 Proposed multi-period response spectra and ground motion requirements of the 2020 Recommended Provisions and ASCE 7-22
This paper summarizes a comprehensive set of proposals to the Provisions Update Committee of the Building Seismic Safety Council that would incorporate multi-period response spectra (MPRS) in the 2020 edition of the NEHRP Recommended Seismic Provisions for New Buildings and Other Structures (2020 NEHRP Provisions) and related proposals to the ASCE 7-22 Seismic Subcommittee of the...
Authors
Charles A Kircher, Sanaz Rezaeian, Nico Luco
The 2018 update of the US National Seismic Hazard Model: Overview of model and implications The 2018 update of the US National Seismic Hazard Model: Overview of model and implications
During 2017–2018, the National Seismic Hazard Model for the conterminous United States was updated as follows: (1) an updated seismicity catalog was incorporated, which includes new earthquakes that occurred from 2013 to 2017; (2) in the central and eastern United States (CEUS), new ground motion models were updated that incorporate updated median estimates, modified assessments of the...
Authors
Mark D. Petersen, Allison Shumway, Peter M. Powers, Charles Mueller, Morgan P. Moschetti, Arthur D. Frankel, Sanaz Rezaeian, Daniel E. McNamara, Nico Luco, Oliver S. Boyd, Kenneth S. Rukstales, Kishor S. Jaiswal, Eric M. Thompson, Susan M. Hoover, Brandon Clayton, Edward H. Field, Yuehua Zeng
Updates to USGS national seismic hazard model (NSHM) and design ground motion maps for 2020 NEHRP recommended provisions Updates to USGS national seismic hazard model (NSHM) and design ground motion maps for 2020 NEHRP recommended provisions
This presentation summarizes the proposed updates to earthquake design ground motions for the 2020 edition of the NEHRP Recommended Seismic Provisions, expected to be incorporated into the ASCE 7-22 Standard. The implications of these updates on the values of design ground motions for example locations in both conterminous and nonconterminous U.S. cities are shown and discussed.
Authors
Sanaz Rezaeian, Nico Luco
Estimation of ground motion variability in the CEUS using simulations Estimation of ground motion variability in the CEUS using simulations
We estimate earthquake ground-motion variability in the central and eastern U.S. (CEUS) by varying the model parameters of a deterministic physics-based and a stochastic site-based simulation method. Utilizing a moderate-magnitude database of recordings, we simulate ground motions for larger-magnitude scenarios M6.0, 6.5, 7.0, 7.5, and 8.0. For the physics-based method, we vary the...
Authors
Xiaodan Sun, Sanaz Rezaeian, Brandon Clayton, Stephen H. Hartzell
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.