Difference between revisions of "CS17.3-H"

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SCEC would like to update the velocity model used in the CyberShake 17.3 Central California Hazard model with an improved Central California Basin Model. We current call the velocity model used in CyberShake Study 17.3 as CVM CS17.3. We propose to call the updated model CS17.3-H, once the new Harvard Central California Basin Model has been added.
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We call the CyberShake Study 17.3 velocity model CVM CS17.3. CS17.3 is the name of a 175m resolution mesh tiled from CCA06, CenCal, CVM-S4.26-M01 with 10km smoothing on each horizontal interface used in the CyberShake Study 17.3, a Central California Seismic Hazard Model. SCEC plans to update the CS17.3 velocity model with improved Central California Basin Models developed by John Shaw and Andreas Plesch. Once the Harvard group's Santa Maria and San Joaquin Basin Models are integrated, UCVM users can access the updated version of the CVM called CS17.3-H
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== Cross Section Plots ==
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Plots and cross sections of CS173-H with basins added.
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*[[UCVMC_CS17.3-H_plots]]
 +
 
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== cs173 rho and vp/vs ratio maps ==
 +
 
 +
{|
 +
| [[File:Cs173_rho_0m_map.png|thumb|400px|CS173 Density (rho) at Depth 0m (Density in g/cm^3)]]
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| [[File:Cs173_rho_100m_map.png|thumb|400px|CS173 Density (rho) at Depth 100m (Density in g/cm^3)]]
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| [[File:Cs173_poisson_0m_map.png|thumb|400px|CS173 Poisson (Vp/Vs) ratio depth 0m]]
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| [[File:Cs173_poisson_1000m_map.png|thumb|400px|CS173 Poisson (Vp/Vs) ratio depth 1000m]]
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| [[File:Cs173_poisson_1d_0m_map.png|thumb|400px|CS173 and 1D background model (Vp/Vs ratio depth 0]]
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|}
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== KML of CS17.3-H and other UCVM Registered Models ==
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*[http://hypocenter.usc.edu/research/ucvmc/KML/UCVM_v18_5_Coverage_Regions_v4.kml KML File with Model Regions]
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 +
{|
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| [[File:Cs173-H_regions_basins.png|thumb|400px|CS173-H Model Region (blue rectangle), San Joaquin Basin (top white rectangle), Santa Maria Basin (left white square)]]
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| [[File:UCVM Models v185.png|thumb|400px|UCVM Velocity Model Regions]]
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|}
  
 
== Vs30 Map from CS17.3 ==
 
== Vs30 Map from CS17.3 ==
We provided Andreas with a mesh tiled from CCA06, CenCal, CVM-S4.26-M01 with 10km smoothing on each horizontal interface. We calculated Vs30 from this tiled model and plotted a Vs30 map for the region.
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CS173 velocity model was defined by a mesh tiled from CCA06, CenCal, CVM-S4.26-M01 with 10km smoothing on each horizontal interface. We calculated Vs30 from this tiled model and plotted a Vs30 map for the region. We have a Central California Basin telecon and based on discussions, we want to produce some more plots of the CS173 velocity model to help with the analysis of it before and after the insertion of the San Joaquin Basin and the Santa Maria Basin.
[[Image:Vs30_cs173.png|right|250px]]
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*Extract from etree values (find method that gets vs30 from etree as used in ely gtl).
 +
*Calculate vs30 map from model (using slowness formula)
 +
 
 +
{|
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| [[File:Vs3 ucvm etree.png|thumb|400px|Vs30 from UCVM Etree Based on Wills 2006 and Wald Topography relationship]]
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| [[Image:Vs30_cs173.png|thumb|400px|Vs30 from models using slowness formula]]
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|}
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Still, to be done, calculate vs30 map from model with Ely GTL (how to add Ely GTL to model, using slowness formula)
  
== Telecon Follow-ups ==
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== Identify the density algorithm used in CVM-S4.26 and CCA06 ==
We have a Central California Basin telecon and based on discussions, we want to produce some more plots of the CS173 velocity model to help with the analysis of it before and after the insertion of the San Joaquin Basin and the Santa Maria Basin.
+
We tested to density algorithms and compared them to the density values we get from various CVMs in order to confirm how density was calculated for the tomography improved CVMS done by Tom Jordan's Full 3D tomography group. We tested two density scaling relationships against density values from CVM-S4.26, CCA06, and USGS Bay Area (CenCal)models.
  
# Vs30 maps
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Results comparing CVM's Density values to Density derived from Vp values
**Extract from etree values (find method that gets vs30 from etree as used in ely gtl). We could get the points from step below, and then
+
{|
** calculate vs30 map from model (using slowness formula)
+
| [[File:Vs3 ucvm etree.png|thumb|400px|Vs30 from UCVM Etree Based on Wills 2006 and Wald Topography relationship]]
** calculation vs30 map from model with Ely GTL (how to add Ely GTL to model, using slowness formula)
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| [[Image:Vs30_cs173.png|thumb|400px|Vs30 from models using slowness formula]]
 +
| [[Image:Vs30_cs173.png|thumb|400px|Vs30 from models using slowness formula]]
 +
|}
  
 +
== Vp versus Density (rho) Map from CS17.3 ==
 +
Researchers requested scatter plots of Vp versus Density scatter plots from CS173. Plot vp (vertical) and density (horizontal) (scaled from 0 to max value on each axis), at depths 0,10000,40000
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{|
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| [[Image:vp_vs_density_cs173.png|thumb|400px|Vp versus Density (Depth 0m) CS173]]
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| [[Image:vp_density_10000.png|thumb|400px|Vp versus Density (Depth 10000m) CS173]]
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| [[Image:vp_density_40000.png|thumb|400px|Vp versus Density (Depth 40000m) CS173]]
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|}
  
# Vp versus Density scatter plots from CS173. Plot vp (vertical) and density (horizontal) (scaled from 0 to max value on each axis), at depths 0, 100, 1000, 10000,40000
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Researchers requested scatter plots of Vp versus Density scatter plots from CS173. Plot vp (vertical) and density (horizontal) (scaled from 0 to max value on each axis), at depths 0,10000,40000
**Depth 0m: [[Image:vp_vs_density_cs173.png|right|250px]]
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{|
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| [[Image:vp_vs_density_cs173.png|thumb|400px|Vp versus Density (Depth 0m) CS173]]
 +
| [[Image:vp_density_10000.png|thumb|400px|Vp versus Density (Depth 10000m) CS173]]
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| [[Image:vp_density_40000.png|thumb|400px|Vp versus Density (Depth 40000m) CS173]]  
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|}
  
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== Scatter Plot Vp (X) from CVM-H v15.1 versus density ==
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{|
 +
| [[File:Cvmh vp versus density 1000km.png|thumb|400px| CVM-H Vp (X-Axis) versus Density (rho) (Y-Axis) at Depth 1000m (Density in g/cm^3)]]
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|}
  
#Create a scecpedia Wiki page that describes the density calculation done for cvms4.26 that uses vp and vs values
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== Document Density Formula for CVM-S4.26 and CCA06 ==
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The following scecpedia Wiki page that describes the density calculation done for cvms4.26 and CCA06 that uses vp and vs values
 +
[[UCVM_Density_Formula]]
  
#Create a difference plot of densities
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== Create a difference plot of densities ==
**Difference between cs173 model, and densities using density calculation, to determine if the density formula was used to create the density values in cs173.
+
Create plots showing difference between cs173 model, and densities using density calculation, to determine if the density formula was used to create the density values in cs173. Also Create plots showing differences between CVM-S4.26 and formula (should be zero), and between CCA06, and formula.
** Differences between CVM-S4.26 and formula (should be zero), and between CCA06, and formula
 
  
 
== Notes on Central California Basin Model ==
 
== Notes on Central California Basin Model ==
*[http://hypocenter.usc.edu/research/CME/CCA_basin_integration.pptx CCA Basin Integration] Notes by Andreas Plesch on Basin Model (15MB pptx)
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Notes by Andreas Plesch on Basin Model (15MB pptx)
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*[http://hypocenter.usc.edu/research/ucvmc/CS173-H/CCA_basin_integration.pptx CCA Basin Integration]
  
 
== Related Entries ==
 
== Related Entries ==
 
*[[CyberShake Study 17.3]]
 
*[[CyberShake Study 17.3]]
 
*[[UCVM]]
 
*[[UCVM]]

Latest revision as of 02:03, 31 May 2018

We call the CyberShake Study 17.3 velocity model CVM CS17.3. CS17.3 is the name of a 175m resolution mesh tiled from CCA06, CenCal, CVM-S4.26-M01 with 10km smoothing on each horizontal interface used in the CyberShake Study 17.3, a Central California Seismic Hazard Model. SCEC plans to update the CS17.3 velocity model with improved Central California Basin Models developed by John Shaw and Andreas Plesch. Once the Harvard group's Santa Maria and San Joaquin Basin Models are integrated, UCVM users can access the updated version of the CVM called CS17.3-H

Cross Section Plots

Plots and cross sections of CS173-H with basins added.

cs173 rho and vp/vs ratio maps

CS173 Density (rho) at Depth 0m (Density in g/cm^3)
CS173 Density (rho) at Depth 100m (Density in g/cm^3)
CS173 Poisson (Vp/Vs) ratio depth 0m
CS173 Poisson (Vp/Vs) ratio depth 1000m
CS173 and 1D background model (Vp/Vs ratio depth 0

KML of CS17.3-H and other UCVM Registered Models

CS173-H Model Region (blue rectangle), San Joaquin Basin (top white rectangle), Santa Maria Basin (left white square)
UCVM Velocity Model Regions

Vs30 Map from CS17.3

CS173 velocity model was defined by a mesh tiled from CCA06, CenCal, CVM-S4.26-M01 with 10km smoothing on each horizontal interface. We calculated Vs30 from this tiled model and plotted a Vs30 map for the region. We have a Central California Basin telecon and based on discussions, we want to produce some more plots of the CS173 velocity model to help with the analysis of it before and after the insertion of the San Joaquin Basin and the Santa Maria Basin.

  • Extract from etree values (find method that gets vs30 from etree as used in ely gtl).
  • Calculate vs30 map from model (using slowness formula)
Vs30 from UCVM Etree Based on Wills 2006 and Wald Topography relationship
Vs30 from models using slowness formula

Still, to be done, calculate vs30 map from model with Ely GTL (how to add Ely GTL to model, using slowness formula)

Identify the density algorithm used in CVM-S4.26 and CCA06

We tested to density algorithms and compared them to the density values we get from various CVMs in order to confirm how density was calculated for the tomography improved CVMS done by Tom Jordan's Full 3D tomography group. We tested two density scaling relationships against density values from CVM-S4.26, CCA06, and USGS Bay Area (CenCal)models.

Results comparing CVM's Density values to Density derived from Vp values

Vs30 from UCVM Etree Based on Wills 2006 and Wald Topography relationship
Vs30 from models using slowness formula
Vs30 from models using slowness formula

Vp versus Density (rho) Map from CS17.3

Researchers requested scatter plots of Vp versus Density scatter plots from CS173. Plot vp (vertical) and density (horizontal) (scaled from 0 to max value on each axis), at depths 0,10000,40000

Vp versus Density (Depth 0m) CS173
Vp versus Density (Depth 10000m) CS173
Vp versus Density (Depth 40000m) CS173

Researchers requested scatter plots of Vp versus Density scatter plots from CS173. Plot vp (vertical) and density (horizontal) (scaled from 0 to max value on each axis), at depths 0,10000,40000

Vp versus Density (Depth 0m) CS173
Vp versus Density (Depth 10000m) CS173
Vp versus Density (Depth 40000m) CS173

Scatter Plot Vp (X) from CVM-H v15.1 versus density

CVM-H Vp (X-Axis) versus Density (rho) (Y-Axis) at Depth 1000m (Density in g/cm^3)

Document Density Formula for CVM-S4.26 and CCA06

The following scecpedia Wiki page that describes the density calculation done for cvms4.26 and CCA06 that uses vp and vs values UCVM_Density_Formula

Create a difference plot of densities

Create plots showing difference between cs173 model, and densities using density calculation, to determine if the density formula was used to create the density values in cs173. Also Create plots showing differences between CVM-S4.26 and formula (should be zero), and between CCA06, and formula.

Notes on Central California Basin Model

Notes by Andreas Plesch on Basin Model (15MB pptx)

Related Entries