NASA MEaSUREs ESESES Project
Displacement Fields (Grids): Level 3 products
Reference: http://garner.ucsd.edu/pub/measuresESESES_products/ATBD/ESESES-ATBD.pdf
(if necessary: username= anonymous pass= your email)
Created: August 29, 2021
Last updated: January 23, 2023

Reference: Klein, K., Y. Bock, X. Xu, D. Sandwell, D. Golriz, P. Fang, L. Su (2019), 
Transient deformation in California from two decades of GPS displacements: 
Implications for a three-dimensional dynamic reference frame, 
Journal Geophysical Research, 124(11), 12189-12223. DOI:10.1029/2018JB017201.Contact: Yehuda Bock (ybock@ucsd.edu))
March 3, 2021

Reference: Zeng, Y. and Shen Z-K. (2017), A Fault-Based Model for Crustal Deformation in the Western United States 
Based on a Combined Inversion of GPS and Geologic Inputs, Bulletin of the Seismological Society of America, 107: 2597-612.

The displacement grids and auxiliary files (vector, residuals, transients, movies) are created from the Level 2 daily displacement time series. They are 
described in the Chapter 5 tables of our ATBD document.

Note: Files with a W in their title indicate a weekly product, while files without W in their titles indicate a product that is cumulative over time.

dynamic datum >
	vector_products >
		horizontals >
			DynDatNEvecW_YYYYMMDD.pdf
			residuals > 
				residualNEvecM_YYYYMMDD.pdf
			data_tables > 
				residualNEvecM_YYYYMMDD.dat
				DynDatNEvecW_YYYYMMDD.dat
		verticals >
			dispUvec_YYYYMMDD.pdf 
			residuals > 
				residualUvec_YYYYMMDD.pdf
			data_tables >
				residualUvec_YYYYMMDD.dat
	gridded_products >
		horizontals >
			dispNgrid_YYYYMMDD.pdf/grd
			dispEgrid_YYYYMMDD.pdf/grd
			misfitNgrid_YYYYMM DD.pdf/grd
			misfitEgrid_YYYYMMDD.pdf/grd
			residuals >
				residualNgridM_YYYYMMDD.pdf/grd
				residualEgridM_YYYYMMDD.pdf/grd 
			data_tables >
				dispNEgrid_YYYYMMDD.dat 
				misfitNEgrid_YYYYMMDD.dat

		verticals >
			dispUgrid_YYYYMMDD.pdf/grd
			misfitUgrid_YYYYMMDD.pdf/grd 
			residuals >
				residualUgrid_YYYYMMDD.pdf/grd
			data_tables >
				dispUgrid_YYYYMMDD.dat 

transients >
	vector_products >
		horizontals >
			transientNEvec_YYYYMMDD.pdf
			transientNEvecW_YYYYMMDD.pdf
			data_tables >
				transientNEvec_YYYYMMDD.dat
				transientNEvecW_YYYYMMDD.dat
	gridded_products >
		horizontals >
			transientNgrid_YYYYMMDD.pdf/grd
			transientEgrid_YYYYMMDD.pdf/grd
			transientNgridW_YYYYMMDD.pdf/grd 
			transientEgridW_YYYYMMDD.pdf/grd
			data_tables >
				transientNEgrid_YYYYMMDD.dat
				transientNEgridW_YYYYMMDD.dat

 
movies > 
	dynamic_datum >
		vectors >
			DynDatNEvecW_YYYYMMDD.mp4
			dispUvec_YYYYMMDD.mp4
			residualNEvec_YYYYMMDD.mp4
			residualUvec_YYYYMMDD.mp4
		gridded >
			dispNgrid_YYYYMMDD.mp4
			dispEgrid_YYYYMMDD.mp4
			dispUgrid_YYYYMMDD.mp4
			misfitNgrid_YYYYMMDD.mp4
			misfitEgrid_YYYYMMDD.mp4
			misfitUgrid_YYYYMMDD.mp4
	transients >
		vectors >
			transientNEvec_YYYYMMDD.mp4
			transientNEvecW_YYYYMMDD.mp4
		gridded >
			transientNgrid_YYYYMMDD.mp4
			transientEgrid_YYYYMMDD.mp4
			transientNgridW_YYYYMMDD.mp4
			transientEgridW_YYYYMMDD.mp4

The .grd files are a type of netCDF file built within the GMT environment and hold all the displacement data values
for each epoch of time for each given grid type. These can be used within GMT (https://urldefense.proofpoint.com/v2/url?u=https-3A__docs.generic-2Dmapping-2Dtools.org_latest_&d=DwIFAg&c=-35OiAkTchMrZOngvJPOeA&r=wsdZDTPjLionAqWs_WzfpA&m=vyd_MKsy3dmR_9KXNJJX97HBVSO_A8cmUb6dIg6p_HE&s=P9hM9rPyZvouimXZUtDbL5gRZZZBD2umWE82X408Qcs&e= ),
as well as other software types (e.g., GDAL, MATLAB).

YYYYMMDD indicates end date of the weekly grid

