Difference between revisions of "Registering CS173 into UCVM"
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## The codes used are in version control here: [CyberShake Projection Codes] | ## The codes used are in version control here: [CyberShake Projection Codes] | ||
##Then we use CyberShake codes convert this center point to UTM Zone 11, which is the southern California UTM zone. While some of the mesh region extends north into UTM zone 10, we will use Zone 11 since the majority of our region of interest is in that zone. We'll do the remaining next steps in UTM. | ##Then we use CyberShake codes convert this center point to UTM Zone 11, which is the southern California UTM zone. While some of the mesh region extends north into UTM zone 10, we will use Zone 11 since the majority of our region of interest is in that zone. We'll do the remaining next steps in UTM. | ||
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#The location of each mesh point will be redefined as a UTM easting and northing, by translating the center of the mesh from lat/lon to UTM coordinates in Zone 11 and then applying the offsets. | #The location of each mesh point will be redefined as a UTM easting and northing, by translating the center of the mesh from lat/lon to UTM coordinates in Zone 11 and then applying the offsets. | ||
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#The Proj4 package will be used to convert the UTM coordinates at each point into a latitude and longitude value, to 5 decimal places. | #The Proj4 package will be used to convert the UTM coordinates at each point into a latitude and longitude value, to 5 decimal places. | ||
#This list of points will be used to query UCVM and create a velocity mesh. Additionally, we will query the USGS topo model in UCVM to obtain the surface elevation at each point. | #This list of points will be used to query UCVM and create a velocity mesh. Additionally, we will query the USGS topo model in UCVM to obtain the surface elevation at each point. |
Revision as of 16:51, 27 October 2017
This page details the steps involved in delivering a velocity mesh to John Shaw and Andreas Plesch, so that the Harvard group's Central California basins can be integrated into a velocity model, which can be fed back into UCVM and used for CyberShake.
Contents
Velocity mesh region
The region we will extract is 560 km x 1218 km x 50.4 km (as measured in the WGS84 coordinate system), with 55 degree rotation counter-clockwise. The mesh will have 175m grid point spacing. The corner points are approximately
W: (37.30489, -127.62831) N: (41.59023, -124.28641) E: (35.17113, -112.97233) S: (31.19740, -116.67400)
Mesh extraction process
To deliver the mesh, we will follow the following procedure:
- CyberShake processing tools will be used to construct a mesh, with the location of each point defined as km offsets from the center of the mesh at the surface.
- The mesh will evenly discretize the region in x,y,z, but do to the rotation, this is not North,South. The resolution will be 175km as measured in the UTM coordinate system.
- A number of CyberShake codes, originally from RWG, are involved in this step. These codes use his great circle projection. These codes figure out the outer bounds of the mesh given the location of a site and fault surfaces. They use great circle will be a problem, and return a lat/lon of the mesh center.
- The codes used are in version control here: [CyberShake Projection Codes]
- Then we use CyberShake codes convert this center point to UTM Zone 11, which is the southern California UTM zone. While some of the mesh region extends north into UTM zone 10, we will use Zone 11 since the majority of our region of interest is in that zone. We'll do the remaining next steps in UTM.
- The location of each mesh point will be redefined as a UTM easting and northing, by translating the center of the mesh from lat/lon to UTM coordinates in Zone 11 and then applying the offsets.
- The Proj4 package will be used to convert the UTM coordinates at each point into a latitude and longitude value, to 5 decimal places.
- This list of points will be used to query UCVM and create a velocity mesh. Additionally, we will query the USGS topo model in UCVM to obtain the surface elevation at each point.
- Smoothing will be applied to the velocity mesh for all points within 10 km of an interface, by averaging the neighbors for 10km in the N, S, E, and W directions.
- Scott will deliver three meshes (one each with Vp, Vs, and rho) in fast y, x, z binary format with 4-byte floats, a list of the elevation of each surface point, a list of the coordinates of each surface point in lat/lon and UTM zone 11, and MD5 sums for all products.
Model Coverage Regions
Related Entries
- [USR]
- [CVM-S]
- [CVM-H]
- [UCVM]