Difference between revisions of "HighF 2018"

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This page documents the High-F activities and decisions for the 2018 verification and validation runs for three groups: Olsen et al. (AWP), Graves (RWG) and Taborda et al. (Hercules).
 
This page documents the High-F activities and decisions for the 2018 verification and validation runs for three groups: Olsen et al. (AWP), Graves (RWG) and Taborda et al. (Hercules).
  
== Mesh Generation Rules and Parameter Constraints ==
+
== Mesh generation rules and parameter constraints ==
Parameter constraints
+
=== Velocities (fixing the CVM for meshing purposes) ===
Velocities (fixing the CVM for meshing purposes)
 
 
* 1. Set Min Vs=500 m/s
 
* 1. Set Min Vs=500 m/s
 
* 2. If Vs was lower than 500 m/s and adjusted, then adjust Vp with original Vp/Vs ratio (so that we don’t have the automatic Vs/Vp of 3). We may want to set a minimum value of Vp (Rob to check)
 
* 2. If Vs was lower than 500 m/s and adjusted, then adjust Vp with original Vp/Vs ratio (so that we don’t have the automatic Vs/Vp of 3). We may want to set a minimum value of Vp (Rob to check)
 
* 3. Then set Max Vp/Vs= 3, if  lower Vp to maintain the max of 3 ratio
 
* 3. Then set Max Vp/Vs= 3, if  lower Vp to maintain the max of 3 ratio
  
Lame parameters: mu and lambda (fixing the CVM for meshing purposes)
+
=== Lame parameters===
Rob to check if raw model produces lambda of <=zero.
+
* mu and lambda (fixing the CVM for meshing purposes)
 +
* Rob to check if raw model produces lambda of <=zero.
 +
* Note: lambda of zero corresponds to Vp/Vs= sqrt(2)=1.45
 +
* Note: typical Vp speeds are 330 m/s in air, 1450 m/s in water and about 5000 m/s in granite
  
Note: typical Vp speeds are 330 m/s in air, 1450 m/s in water and about 5000 m/s in granite
+
=== Anelastic attenuation (Q) ===
Lambda of zero corresponds to Vp/Vs= sqrt(2)=1.45;
+
Frequency-independent Q definition
 +
* Qs=100*Vs(km/s)
 +
* Qp=2*Qs
  
Frequency-independent Q definition
+
=== Upper frequency ===
*  Qs=100*Vs(km/s)
 
*  Qp=2*Qs
 
  
Frequencies (5Hz): based on 500 m/s and 20 m spacing
+
5Hz: based on 500 m/s and 20 m spacing
Kim and Rob have been low-pass filtering the slip function at 5 Hz
+
Kim and Rob have been low-pass filtering the slip function at 5 Hz
Ricardo and Naeem don’t filter the source
+
Ricardo and Naeem don’t filter the source
  
  

Revision as of 17:35, 5 March 2018

This page documents the High-F activities and decisions for the 2018 verification and validation runs for three groups: Olsen et al. (AWP), Graves (RWG) and Taborda et al. (Hercules).

Mesh generation rules and parameter constraints

Velocities (fixing the CVM for meshing purposes)

  • 1. Set Min Vs=500 m/s
  • 2. If Vs was lower than 500 m/s and adjusted, then adjust Vp with original Vp/Vs ratio (so that we don’t have the automatic Vs/Vp of 3). We may want to set a minimum value of Vp (Rob to check)
  • 3. Then set Max Vp/Vs= 3, if lower Vp to maintain the max of 3 ratio

Lame parameters

  • mu and lambda (fixing the CVM for meshing purposes)
  • Rob to check if raw model produces lambda of <=zero.
  • Note: lambda of zero corresponds to Vp/Vs= sqrt(2)=1.45
  • Note: typical Vp speeds are 330 m/s in air, 1450 m/s in water and about 5000 m/s in granite

Anelastic attenuation (Q)

Frequency-independent Q definition

  • Qs=100*Vs(km/s)
  • Qp=2*Qs

Upper frequency

  • 5Hz: based on 500 m/s and 20 m spacing
  • Kim and Rob have been low-pass filtering the slip function at 5 Hz
  • Ricardo and Naeem don’t filter the source


Source Models

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