Difference between revisions of "Moved:SCEC UGMS Committee Meeting 6"

From SCECpedia
Jump to navigationJump to search
(Migrated to https://www.scec.org/workshops/2016/ugms)
 
(20 intermediate revisions by 4 users not shown)
Line 1: Line 1:
 +
{{#externalredirect: https://www.scec.org/workshops/2016/ugms}}
 +
 
[[File:SCEC_logo.png‎|right|175px]]
 
[[File:SCEC_logo.png‎|right|175px]]
  
Line 21: Line 23:
 
|-valign="top"
 
|-valign="top"
 
| 10:15
 
| 10:15
| Review of Results from November 2015 Meeting
+
| [[Media:1015_Crouse_May2016.pptx|Review of Results from November 2015 Meeting]]
 
| C.B. Crouse
 
| C.B. Crouse
 
|-valign="top"
 
|-valign="top"
 
| 10:30
 
| 10:30
| Review of Revised Risk-Targeted Maximum Considered Earthquake Response Spectra (MCE<sub>R</sub>) at 50 Additional Southern California Sites (T = 2 – 10 sec)
+
| [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/1030_Callaghan_CyberShake_review.pdf Review of Revised Risk-Targeted Maximum Considered Earthquake Response Spectra (MCE<sub>R</sub>) at 50 Additional Southern California Sites (T = 2 – 10 sec) ]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_main/ Original 14 Sites]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_la_basin_west/ LA Basin West]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_la_basin_central/ LA Basin Central]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_la_basin_east/ LA Basin East]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_inland_empire/ Inland Empire]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_sf_valley/ San Fernando Valley]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_orange_county/ Orange County]
 
| K. Milner / S. Callaghan
 
| K. Milner / S. Callaghan
 
|-valign="top"
 
|-valign="top"
 
| 11:30
 
| 11:30
| Review of Hazard and MCER Deaggregation Results and Representative Simulated Seismograms from CyberShake at Selected Sites
+
| [[#Sample_Hazard_and_Disaggregation_Plots|Review of Hazard and MCER Deaggregation Results and Representative Simulated Seismograms from CyberShake at Selected Sites]]
 
| K. Milner / S. Callaghan
 
| K. Milner / S. Callaghan
 
|-valign="top"
 
|-valign="top"
Line 37: Line 46:
 
|-valign="top"
 
|-valign="top"
 
| 13:00
 
| 13:00
| Results of Revision to Site-Response Analysis at Carson Site (s429)
+
| [[Media:1300_Asimaki_May2016.pptx|Results of Revision to Site-Response Analysis at Carson Site (s429)]]
 
| D. Asimaki
 
| D. Asimaki
 
|-valign="top"
 
|-valign="top"
 
| 13:15
 
| 13:15
 
| Proposal to Construct MCE<sub>R</sub> Response Spectra and Review of Resulting MCE<sub>R</sub> at 64 (14 original + 50 new) Southern California Sites
 
| Proposal to Construct MCE<sub>R</sub> Response Spectra and Review of Resulting MCE<sub>R</sub> at 64 (14 original + 50 new) Southern California Sites
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_main/final.html Original 14 Sites]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_la_basin_west/final.html LA Basin West]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_la_basin_central/final.html LA Basin Central]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_la_basin_east/final.html LA Basin East]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_inland_empire/final.html Inland Empire]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_sf_valley/final.html San Fernando Valley]
 +
* [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_orange_county/final.html Orange County]
 
| C.B. Crouse
 
| C.B. Crouse
 
|-valign="top"
 
|-valign="top"
Line 78: Line 94:
 
|
 
|
 
|-valign="top"
 
|-valign="top"
|<u>Member Attendees (in person)</u><br>C.B. Crouse - chair<br>Bob Bachman<br>Jacobo Bielak<br>Christine Goulet<br>Rob Graves**<br>John Hooper<br>Marty Hudson<br>Charlie Kircher<br>Nico Luco<br>Paul Somerville**<br>Farzad Naeim<br><br><br>''**unconfirmed''
+
|<u>Member Attendees (in person)</u><br>C.B. Crouse - chair<br>Bob Bachman<br>Jacobo Bielak<br>Christine Goulet<br>Rob Graves<br>John Hooper<br>Marty Hudson<br>Charlie Kircher<br>Nico Luco<br>Farzad Naeim<br>
 
|<u>Member Attendees (remotely)</u><br>John Anderson<br>Jack Baker<br>Art Frankel<br>Curt Haselton<br>
 
|<u>Member Attendees (remotely)</u><br>John Anderson<br>Jack Baker<br>Art Frankel<br>Curt Haselton<br>
|<u>Members Absent</u><br>Norm Abrahamson<br>
+
|<u>Members Absent</u><br>Norm Abrahamson<br>Paul Somerville<br>
|<u>Observers</u><br>Brad Aagaard<br>Domniki Asimaki<br>Annemarie Baltay<br>Nenad Bijelic<br>Scott Callaghan<br>Victor Cuevas<br>Greg eierlein<br>Christine Goulet<br>Tran Huynh<br>Tom Jordan<br>Ting Lin<br>Phil Maechling<br>Kevin Milner<br>Morgan Moschetti<br>Kim Olsen<br>Sanaz Rezaeian<br>Andreas Skarlatoudis<br>Ricardo Taborda<br>
+
|<u>Observers</u><br>Jesus Acosta<br>Brad Aagaard<br>Domniki Asimaki<br>Annemarie Baltay<br>Nenad Bijelic<br>Scott Callaghan<br>Greg Deierlein<br>Christine Goulet<br>Tran Huynh<br>Tom Jordan<br>Ting Lin<br>Phil Maechling<br>Allen Manalansan<br>Kevin Milner<br>Morgan Moschetti<br>Kim Olsen<br>Sanaz Rezaeian<br>Andreas Skarlatoudis<br>Ricardo Taborda<br>
 
|}
 
|}
 
<br>
 
<br>
 
<br>
 
<br>
  
== UGMS Sites ==
+
== UGMS Selected Study Sites ==
 +
 
 +
Download [[Media:UGMS2016-Maps.pdf|map of selected study sites]] and [https://drive.google.com/file/d/0BzCqFePMh0o8dC1ud09GOG9TSFk/view?usp=sharing KMZ file].
  
[[Media:UGMS-Meeting-6-Sites-Prelim.csv|Download a preliminary site list with Vs30 and basin depth information]]. Note that CyberShake applies a minimum Vs floor of 500 m/s.
+
Download [[Media:UGMS-Meeting-6-Sites-Prelim.csv|site list with Vs30 and basin depth information]]. Note that CyberShake applies a minimum Vs floor of 500 m/s.
  
 +
[[File:UGMS2016_CS15.4_terrain.jpg‎|1000px]]
  
 
== Sample CyberShake Time Series ==
 
== Sample CyberShake Time Series ==
Line 95: Line 114:
 
We have extracted timeseries data for the following 4 events:
 
We have extracted timeseries data for the following 4 events:
  
#Southern San Andreas, nucleating near Bombay Beach (33.3772, -115.74, 4.1514 km deep): source 59, rupture 3, rupture variation 0.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/SAF_Coachella here].
+
#Southern San Andreas, nucleating near Bombay Beach (33.3772, -115.74, 4.1514 km deep): source 59, rupture 3, rupture variation 0.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/SAF_Coachella/Seismogram_COO_SAF_Coachella.png here].
#Southern San Andreas, nucleating near the Carrizo Plain (35.2809, -119.8182, 12.3263 km deep): source 59, rupture 3, rupture variation 296.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/SAF_Carrizo here].
+
#Southern San Andreas, nucleating near the Carrizo Plain (35.2809, -119.8182, 12.3263 km deep): source 59, rupture 3, rupture variation 296.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/SAF_Carrizo/Seismogram_COO_SAF_Carrizo.png here].
#Southern San Andreas, nucleating near the Cajon Pass (34.3123, -117.5051, 20.3019 km deep): source 59, rupture 3, rupture variation 144.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/SAF_Cajon_Pass here].
+
#Southern San Andreas, nucleating near the Cajon Pass (34.3123, -117.5051, 20.3019 km deep): source 59, rupture 3, rupture variation 144.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/SAF_Cajon_Pass/Seismogram_COO_SAF_Cajon_Pass.png here].
#Puente Hills (34.0811, -118.0461, 12.4803 km deep): source 242, rupture 26, rupture variation 31.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/Puente_Hills here].
+
#Puente Hills (34.0811, -118.0461, 12.4803 km deep): source 242, rupture 26, rupture variation 31.<br/>Plots available [http://hypocenter.usc.edu/research/cybershake/5_16_UGMS_Meeting/timeseries/Puente_Hills/Seismogram_COO_Puente_Hills.png here].
  
 
== Sample Hazard and Disaggregation Plots ==
 
== Sample Hazard and Disaggregation Plots ==
Line 104: Line 123:
 
{| border="1"
 
{| border="1"
 
! Site
 
! Site
 +
! Location Map
 
! 5s CyberShake Fault Hazard Curves
 
! 5s CyberShake Fault Hazard Curves
 
! 5s GMPE Fault Hazard Curves
 
! 5s GMPE Fault Hazard Curves
 
! 5s CyberShake Distance/Mag Disaggregation
 
! 5s CyberShake Distance/Mag Disaggregation
 
! 5s GMPE Distance/Mag Disaggregation
 
! 5s GMPE Distance/Mag Disaggregation
 +
! CyberShake Relative Fault Exclusion Impact
 
! CyberShake Fault Exclusion Impact
 
! CyberShake Fault Exclusion Impact
 
|-
 
|-
! CCP
+
! [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_main/#CCP_run3876 CCP]
| [[File:CCP_run3876_RotD100_hazard_decomp_5.0s.png|thumb|250px]]
+
| [[File:CCP_site_location_map.png|thumb|200px]]
| [[File:CCP_run3876_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|250px]]
+
| [[File:CCP_run3876_RotD100_hazard_decomp_5.0s.png|thumb|200px]]
| [[File:CCP_ERF36_Run3876_DisaggPOE_4.0E-4_SA_5sec_2015_04_25.png|thumb|250px]]
+
| [[File:CCP_run3876_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|200px]]
| [[File:CCP_ERF36_Run3876_DisaggPOE_4.0E-4_SA_5sec_2015_04_25_GMPE.png|thumb|250px]]
+
| [[File:CCP_ERF36_Run3876_DisaggPOE_4.0E-4_SA_5sec_2015_04_25.png|thumb|200px]]
| [[File:CCP_run3876_RotD100_hazard_decomp_bar.png|thumb|250px]]
+
| [[File:CCP_ERF36_Run3876_DisaggPOE_4.0E-4_SA_5sec_2015_04_25_GMPE.png|thumb|200px]]
 +
| [[File:CCP_run3876_RotD100_hazard_decomp_bar.png|thumb|200px]]
 +
| [[File:CCP_run3876_RotD100_hazard_decomp_line.png|thumb|200px]]
 
|-
 
|-
! COO
+
! [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_main/#COO_run3877 COO]
| [[File:COO_run3877_RotD100_hazard_decomp_5.0s.png|thumb|250px]]
+
| [[File:COO_site_location_map.png|thumb|200px]]
| [[File:COO_run3877_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|250px]]
+
| [[File:COO_run3877_RotD100_hazard_decomp_5.0s.png|thumb|200px]]
| [[File:COO_ERF36_Run3877_DisaggPOE_4.0E-4_SA_5sec_2015_05_01.png|thumb|250px]]
+
| [[File:COO_run3877_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|200px]]
| [[File:COO_ERF36_Run3877_DisaggPOE_4.0E-4_SA_5sec_2015_05_01_GMPE.png|thumb|250px]]
+
| [[File:COO_ERF36_Run3877_DisaggPOE_4.0E-4_SA_5sec_2015_05_01.png|thumb|200px]]
| [[File:COO_run3877_RotD100_hazard_decomp_bar.png|thumb|250px]]
+
| [[File:COO_ERF36_Run3877_DisaggPOE_4.0E-4_SA_5sec_2015_05_01_GMPE.png|thumb|200px]]
 +
| [[File:COO_run3877_RotD100_hazard_decomp_bar.png|thumb|200px]]
 +
| [[File:COO_run3877_RotD100_hazard_decomp_line.png|thumb|200px]]
 
|-
 
|-
! PAS
+
! [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_main/#PAS_run3878 PAS]
| [[File:PAS_run3878_RotD100_hazard_decomp_5.0s.png|thumb|250px]]
+
| [[File:PAS_site_location_map.png|thumb|200px]]
| [[File:PAS_run3878_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|250px]]
+
| [[File:PAS_run3878_RotD100_hazard_decomp_5.0s.png|thumb|200px]]
| [[File:PAS_ERF36_Run3878_DisaggPOE_4.0E-4_SA_5sec_2015_04_25.png|thumb|250px]]
+
| [[File:PAS_run3878_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|200px]]
| [[File:PAS_ERF36_Run3878_DisaggPOE_4.0E-4_SA_5sec_2015_04_25_GMPE.png|thumb|250px]]
+
| [[File:PAS_ERF36_Run3878_DisaggPOE_4.0E-4_SA_5sec_2015_04_25.png|thumb|200px]]
| [[File:PAS_run3878_RotD100_hazard_decomp_bar.png|thumb|250px]]
+
| [[File:PAS_ERF36_Run3878_DisaggPOE_4.0E-4_SA_5sec_2015_04_25_GMPE.png|thumb|200px]]
 +
| [[File:PAS_run3878_RotD100_hazard_decomp_bar.png|thumb|200px]]
 +
| [[File:PAS_run3878_RotD100_hazard_decomp_line.png|thumb|200px]]
 
|-
 
|-
! SBSM
+
! [http://zero.usc.edu/ftp/kmilner/cybershake/ugms/study_15_4_main/#SBSM_run3880 SBSM]
| [[File:SBSM_run3880_RotD100_hazard_decomp_5.0s.png|thumb|250px]]
+
| [[File:SBSM_site_location_map.png|thumb|200px]]
| [[File:SBSM_run3880_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|250px]]
+
| [[File:SBSM_run3880_RotD100_hazard_decomp_5.0s.png|thumb|200px]]
| [[File:SBSM_ERF36_Run3880_DisaggPOE_4.0E-4_SA_5sec_2015_04_19.png|thumb|250px]]
+
| [[File:SBSM_run3880_RotD100_hazard_decomp_gmpe_5.0s.png|thumb|200px]]
| [[File:SBSM_ERF36_Run3880_DisaggPOE_4.0E-4_SA_5sec_2015_04_19_GMPE.png|thumb|250px]]
+
| [[File:SBSM_ERF36_Run3880_DisaggPOE_4.0E-4_SA_5sec_2015_04_19.png|thumb|200px]]
| [[File:SBSM_run3880_RotD100_hazard_decomp_bar.png|thumb|250px]]
+
| [[File:SBSM_ERF36_Run3880_DisaggPOE_4.0E-4_SA_5sec_2015_04_19_GMPE.png|thumb|200px]]
 +
| [[File:SBSM_run3880_RotD100_hazard_decomp_bar.png|thumb|200px]]
 +
| [[File:SBSM_run3880_RotD100_hazard_decomp_line.png|thumb|200px]]
 
|}
 
|}
  

Latest revision as of 21:05, 26 February 2018

{{#externalredirect: https://www.scec.org/workshops/2016/ugms}}

SCEC logo.png
SCEC Committee for Utilization of Ground Motion Simulations Meeting 6
Organizers: C.B. Crouse (AECOM) and Tom Jordan (SCEC/USC)
Date: Monday, May 16, 2016 (10:00-15:00)
Location: SCEC Board Room (ZHS 167), USC, Los Angeles, CA
Participants: TBD (by invitation only)

Agenda

Presentation slides may be downloaded by clicking each title. PLEASE NOTE: Slides are the author's property. They may contain unpublished or preliminary information and should only be used while viewing the talk.

10:00 Welcome, Attendee Introductions, and Agenda Review C.B. Crouse
10:15 Review of Results from November 2015 Meeting C.B. Crouse
10:30 Review of Revised Risk-Targeted Maximum Considered Earthquake Response Spectra (MCER) at 50 Additional Southern California Sites (T = 2 – 10 sec) K. Milner / S. Callaghan
11:30 Review of Hazard and MCER Deaggregation Results and Representative Simulated Seismograms from CyberShake at Selected Sites K. Milner / S. Callaghan
12:00 Lunch
13:00 Results of Revision to Site-Response Analysis at Carson Site (s429) D. Asimaki
13:15 Proposal to Construct MCER Response Spectra and Review of Resulting MCER at 64 (14 original + 50 new) Southern California Sites C.B. Crouse
14:00 Approach to Develop MCER for Arbitrary Vs30 (for use as input/outcrop motion for optional site-response analyses) C.B. Crouse / M. Hudson
14:15 Development of MCER Look-Up Tool (Plan, Contents, & Schedule) C. Goulet / C.B. Crouse
14:30 Promotion of MCER Maps for L.A. Region as Possible Supplement to ASCE 7-16 for City of L.A. (Logistics & Approach) Results to be Presented & Tentative Dates for Next UGMS Meeting B. Bachman / F. Naeim
14:45 CyberShake Validation Efforts (Goulet) C. Goulet
15:00 Action Items for Next UGMS Meeting (Crouse) C.B. Crouse
15:15 Adjourn

Participants

Member Attendees (in person)
C.B. Crouse - chair
Bob Bachman
Jacobo Bielak
Christine Goulet
Rob Graves
John Hooper
Marty Hudson
Charlie Kircher
Nico Luco
Farzad Naeim
Member Attendees (remotely)
John Anderson
Jack Baker
Art Frankel
Curt Haselton
Members Absent
Norm Abrahamson
Paul Somerville
Observers
Jesus Acosta
Brad Aagaard
Domniki Asimaki
Annemarie Baltay
Nenad Bijelic
Scott Callaghan
Greg Deierlein
Christine Goulet
Tran Huynh
Tom Jordan
Ting Lin
Phil Maechling
Allen Manalansan
Kevin Milner
Morgan Moschetti
Kim Olsen
Sanaz Rezaeian
Andreas Skarlatoudis
Ricardo Taborda



UGMS Selected Study Sites

Download map of selected study sites and KMZ file.

Download site list with Vs30 and basin depth information. Note that CyberShake applies a minimum Vs floor of 500 m/s.

UGMS2016 CS15.4 terrain.jpg

Sample CyberShake Time Series

We have extracted timeseries data for the following 4 events:

  1. Southern San Andreas, nucleating near Bombay Beach (33.3772, -115.74, 4.1514 km deep): source 59, rupture 3, rupture variation 0.
    Plots available here.
  2. Southern San Andreas, nucleating near the Carrizo Plain (35.2809, -119.8182, 12.3263 km deep): source 59, rupture 3, rupture variation 296.
    Plots available here.
  3. Southern San Andreas, nucleating near the Cajon Pass (34.3123, -117.5051, 20.3019 km deep): source 59, rupture 3, rupture variation 144.
    Plots available here.
  4. Puente Hills (34.0811, -118.0461, 12.4803 km deep): source 242, rupture 26, rupture variation 31.
    Plots available here.

Sample Hazard and Disaggregation Plots

Site Location Map 5s CyberShake Fault Hazard Curves 5s GMPE Fault Hazard Curves 5s CyberShake Distance/Mag Disaggregation 5s GMPE Distance/Mag Disaggregation CyberShake Relative Fault Exclusion Impact CyberShake Fault Exclusion Impact
CCP
CCP site location map.png
CCP run3876 RotD100 hazard decomp 5.0s.png
CCP run3876 RotD100 hazard decomp gmpe 5.0s.png
CCP ERF36 Run3876 DisaggPOE 4.0E-4 SA 5sec 2015 04 25.png
CCP ERF36 Run3876 DisaggPOE 4.0E-4 SA 5sec 2015 04 25 GMPE.png
CCP run3876 RotD100 hazard decomp bar.png
CCP run3876 RotD100 hazard decomp line.png
COO
COO site location map.png
COO run3877 RotD100 hazard decomp 5.0s.png
COO run3877 RotD100 hazard decomp gmpe 5.0s.png
COO ERF36 Run3877 DisaggPOE 4.0E-4 SA 5sec 2015 05 01.png
COO ERF36 Run3877 DisaggPOE 4.0E-4 SA 5sec 2015 05 01 GMPE.png
COO run3877 RotD100 hazard decomp bar.png
COO run3877 RotD100 hazard decomp line.png
PAS
PAS site location map.png
PAS run3878 RotD100 hazard decomp 5.0s.png
PAS run3878 RotD100 hazard decomp gmpe 5.0s.png
PAS ERF36 Run3878 DisaggPOE 4.0E-4 SA 5sec 2015 04 25.png
PAS ERF36 Run3878 DisaggPOE 4.0E-4 SA 5sec 2015 04 25 GMPE.png
PAS run3878 RotD100 hazard decomp bar.png
PAS run3878 RotD100 hazard decomp line.png
SBSM
SBSM site location map.png
SBSM run3880 RotD100 hazard decomp 5.0s.png
SBSM run3880 RotD100 hazard decomp gmpe 5.0s.png
SBSM ERF36 Run3880 DisaggPOE 4.0E-4 SA 5sec 2015 04 19.png
SBSM ERF36 Run3880 DisaggPOE 4.0E-4 SA 5sec 2015 04 19 GMPE.png
SBSM run3880 RotD100 hazard decomp bar.png
SBSM run3880 RotD100 hazard decomp line.png

CyberShake Action Items

Related Entries