Presentation is loading. Please wait.

Presentation is loading. Please wait.

103/25/04 NGA Workshop Parameterization of Basin Response Based on 3D Simulations by PEER/SCEC 3D Ground Motion Project Team PI: Steven M. Day San Diego.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "103/25/04 NGA Workshop Parameterization of Basin Response Based on 3D Simulations by PEER/SCEC 3D Ground Motion Project Team PI: Steven M. Day San Diego."— Presentation transcript:

1 103/25/04 NGA Workshop Parameterization of Basin Response Based on 3D Simulations by PEER/SCEC 3D Ground Motion Project Team PI: Steven M. Day San Diego State University March 25, 2004

2 203/25/04 NGA Workshop Simulations Completed –85 different earthquake simulations 10 faults from SCEC Community Fault Model 6 rupture scenarios for each (hypocenter and slip model variations) 10 cross-check simulations (1 per fault) 15 1D reference simulations

3 303/25/04 NGA Workshop Faults Modeled 1. Sierra Madre (7.0) 2. Santa Monica SW (6.3) 3. Hollywood (6.4) 4. Raymond (6.6) 5. Puente Hills I (6.8) 6. Puente Hills II (6.7) 7. Puente Hills (all) (7.1) 8. Compton (6.9) 9. Newport-Inglewood (6.9) 10. Whittier (6.7)

4 403/25/04 NGA Workshop Six Rupture Scenarios Per Fault 2 hypocenters –1/4 fault-length from each end –7/10 fault-width down dip 3 slip models –Constructed following Somerville (1999) –Constant rupture velocity (2.8 km/s) –Rise time scaled to empirical formula: Log(T r )=0.5(M w +10.7) + log(2.9x10 -9 )

5 503/25/04 NGA Workshop Coordination Scheme UCB -LLNLUCSBCMUURS (RG)URS (AP) S. MadreF,R,SC S. Mon.F,RC HollyWF,RC RaymF,RC P.Hills6.8F,RC P.Hills6.7F,RC P.Hills7.1F,R,R,SC CompF,R,SC N-I N.R,SFC Whit N.RFC F = 6 3D scenarios C = single cross-check R = 1D rock reference simulation S = 1D basin-profile simulation

6 603/25/04 NGA Workshop Output Full time histories 3 velocity components 1600 surface points per simulation Basin and rock sites sampled ~300,000 synthetic time histories and associated metadata in digital library

7 703/25/04 NGA Workshop Cross-check (cont’d) Sierra Madre Scenario Compares FD and FE codes at 16 sites (N-S component): –FD (UCB/LLNL) red –FE (CMU) green

8 803/25/04 NGA Workshop Response Spectra Data Set synthetic Sa ordinates (2-10 second period range) source distances local basin depth measures (depths to 1.0, 1.5, 2.5, and 3.5 km/s isosurfaces) Sa files available on web

9 903/25/04 NGA Workshop 3D÷1D_rock Sa Ratios Frequency (Hz) ln(Sa Ratio) Frequency (Hz)

10 1003/25/04 NGA Workshop Vertically Incident SH Response ln(Sa Ratio) Frequency (Hz)

11 1103/25/04 NGA Workshop Basin Depth Effect Curves

12 1203/25/04 NGA Workshop Curve Fits to Basin Depth Effect ( Separately Optimized at Each Period)

13 1303/25/04 NGA Workshop Curve Fits to Basin Depth Effect ( 6-parameter model for Depth and Period Dependence)

14 1403/25/04 NGA Workshop Basin Effect Relative to 1-D Soil (2000 m Depth to Isosurface)

15 1503/25/04 NGA Workshop 1D Rock Simulations vs A-S Regression Model Period (sec) Underprediction Factor

16 1603/25/04 NGA Workshop Transfer Function from “Very Hard Rock” to Boore/Joyner “Generic Rock”

17 1703/25/04 NGA Workshop

18 1803/25/04 NGA Workshop 1.5 Km/s Isosurface Map

19 1903/25/04 NGA Workshop 8 Sec Sa Mean Residual Map

20 2003/25/04 NGA Workshop 5 Sec Sa Mean Residual Map

21 2103/25/04 NGA Workshop 3 Sec Sa Mean Residual Map

22 2203/25/04 NGA Workshop RMS Residuals

23 2303/25/04 NGA Workshop 8 sec Sa RMS Residual Map

24 2403/25/04 NGA Workshop 5 sec Sa RMS Residual Map

25 2503/25/04 NGA Workshop 3 sec Sa RMS Residual Map

26 2603/25/04 NGA Workshop Summary Source-averaged 3D effect is largely captured by basin depth term (depth to 1.5 km/s isosurface) Mean and variance are period-dependent Results almost certainly double-count effects partially represented in “rock” regression equations With ~500 m depth sites (instead of 0 depth) taken as “rock” reference: –absolute amplitudes at long period (5 sec) come into agreement with A-S rock regression (i.e., under-prediction eliminated) –Addition under-prediction at shorter periods probably partly a source effect (which would be removed by our analysis of ratios) –Maximum basin effect reduced to ~2 (@ 2 sec) to ~3 (@ 10 sec)

27 2703/25/04 NGA Workshop Summary (cont’d) Little or no systematic basin-edge effect in source- averaged residuals Likewise, no clear basin-edge effect in source- averaged standard deviations

28 2803/25/04 NGA Workshop Directions for Additional Work Analysis of current synthetic data set for –Basin-specific (e.g., L.A., San Fernando, San Gabriel) variations –Event-specific basin effects Simulations for additional regions (e.g., Santa Clara Valley? Imperial Valley? others) to examine transportability of results Push simulations to ~1 Hz

Download ppt "103/25/04 NGA Workshop Parameterization of Basin Response Based on 3D Simulations by PEER/SCEC 3D Ground Motion Project Team PI: Steven M. Day San Diego."

Similar presentations

Real-Time Estimation of Earthquake Location and Magnitude for Seismic Early Warning in Campania Region, southern Italy A. Zollo and RISSC-Lab Research.

Real-Time Estimation of Earthquake Location and Magnitude for Seismic Early Warning in Campania Region, southern Italy A. Zollo and RISSC-Lab Research.
Www.spice-rtn.org Mid-Term Review Meeting, February 13-14, Tutzing Seismic wave Propagation and Imaging in Complex media: a European network IVO OPRSAL.

Mid-Term Review Meeting, February 13-14, Tutzing Seismic wave Propagation and Imaging in Complex media: a European network IVO OPRSAL.
PREDICTION OF RESPONSE SPECTRAL PARAMETERS FOR BHUJ EARTHQUAKE (26TH JANUARY 2001) USING COMPONENT ATTENUATION MODELLING TECHNIQUE By DR. SAROSH.H. LODI.

PREDICTION OF RESPONSE SPECTRAL PARAMETERS FOR BHUJ EARTHQUAKE (26TH JANUARY 2001) USING COMPONENT ATTENUATION MODELLING TECHNIQUE By DR. SAROSH.H. LODI.
Ground Motion Scaling Based on 1-D Rock Simulations N. Abrahamson NGA Workshop #5 March 24, 2004.

Ground Motion Scaling Based on 1-D Rock Simulations N. Abrahamson NGA Workshop #5 March 24, 2004.
Slip Rate Studies Along the Sierra Madre-Cucamonga Fault System Using Geomorphic and 10 Be Cosmogenic Surface Exposure Age Constraints.

Slip Rate Studies Along the Sierra Madre-Cucamonga Fault System Using Geomorphic and 10 Be Cosmogenic Surface Exposure Age Constraints.
1 CVM Efforts in Wellington, New Zealand John Louie, Nevada Seismological Lab Collaborators: R. Benites, G. McVerry, & W. R. Stephenson, GNS Science S.

1 CVM Efforts in Wellington, New Zealand John Louie, Nevada Seismological Lab Collaborators: R. Benites, G. McVerry, & W. R. Stephenson, GNS Science S.
Active Folding within the L.A. Basin with a focus on: Argus et al. (2005), Interseismic strain accumulation and anthropogenic motion in metropolitan Los.

Active Folding within the L.A. Basin with a focus on: Argus et al. (2005), Interseismic strain accumulation and anthropogenic motion in metropolitan Los.
10/09/2007CIG/SPICE/IRIS/USAF1 Broadband Ground Motion Simulations for a Mw 7.8 Southern San Andreas Earthquake: ShakeOut Robert W. Graves (URS Corporation)

10/09/2007CIG/SPICE/IRIS/USAF1 Broadband Ground Motion Simulations for a Mw 7.8 Southern San Andreas Earthquake: ShakeOut Robert W. Graves (URS Corporation)
Prague, March 18, 2005Antonio Emolo1 Seismic Hazard Assessment for a Characteristic Earthquake Scenario: Integrating Probabilistic and Deterministic Approaches.

Prague, March 18, 2005Antonio Emolo1 Seismic Hazard Assessment for a Characteristic Earthquake Scenario: Integrating Probabilistic and Deterministic Approaches.
Need for an accurate Reno velocity model to understand amplification in the Reno Basin Aasha Pancha.

Need for an accurate Reno velocity model to understand amplification in the Reno Basin Aasha Pancha.
1 High Performance Computing at SCEC Scott Callaghan Southern California Earthquake Center University of Southern California.

1 High Performance Computing at SCEC Scott Callaghan Southern California Earthquake Center University of Southern California.
Will Performance-Based Engineering Break the Power Law? Tom Heaton John Hall Anna Olsen Masumi Yamada Georgia Cua.

Will Performance-Based Engineering Break the Power Law? Tom Heaton John Hall Anna Olsen Masumi Yamada Georgia Cua.
1 Workshop on GMSM for Nonlinear Analysis, Berkeley CA, October 26, 2006 ATC-63 Selection and Scaling Method Charles Kircher Curt B. Haselton Gregory G.

1 Workshop on GMSM for Nonlinear Analysis, Berkeley CA, October 26, 2006 ATC-63 Selection and Scaling Method Charles Kircher Curt B. Haselton Gregory G.
Ground Motion Prediction Equations for Eastern North America Gail M. Atkinson, UWO David M. Boore, USGS (BSSA, 2006)

Ground Motion Prediction Equations for Eastern North America Gail M. Atkinson, UWO David M. Boore, USGS (BSSA, 2006)
Response of Steel MRF to Puente Hills simulated motions Anna Olsen Tom Heaton Dean John Hall Caltech Civil Engineering.

Response of Steel MRF to Puente Hills simulated motions Anna Olsen Tom Heaton Dean John Hall Caltech Civil Engineering.
Science for a changing world The USGS and the Development of the Nevada Great Basin Community Velocity Model.

Science for a changing world The USGS and the Development of the Nevada Great Basin Community Velocity Model.
J. Louie 2/24/2005 Refraction Microtremor for Shallow Shear Velocity in California Urban Basins John Louie, Nevada Seismological Lab UNR students: J. B.

J. Louie 2/24/2005 Refraction Microtremor for Shallow Shear Velocity in California Urban Basins John Louie, Nevada Seismological Lab UNR students: J. B.
March 7, 2008NGA-East 2nd Workshop1 RECENT DEVELOPMENTS IN STRONG MOTION SIMULATIONS FOR CEUS Paul Somerville and Robert Graves URS Pasadena MOTIVATION:

March 7, 2008NGA-East 2nd Workshop1 RECENT DEVELOPMENTS IN STRONG MOTION SIMULATIONS FOR CEUS Paul Somerville and Robert Graves URS Pasadena MOTIVATION:
Characterization of Ground Motion Hazard PEER Summative Meeting - June 13, 2007 Yousef Bozorgnia PEER Associate Director.

Characterization of Ground Motion Hazard PEER Summative Meeting - June 13, 2007 Yousef Bozorgnia PEER Associate Director.
Overview of NGA Database, Model Development to Date, and Next Steps PEER-NGA Workshop April 12, 2005.

Overview of NGA Database, Model Development to Date, and Next Steps PEER-NGA Workshop April 12, 2005.

Similar presentations

Ads by Google