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| MINTPY-SAVE_GBIS(1) | User Commands | MINTPY-SAVE_GBIS(1) |
NAME¶
mintpy-save_gbis - Convert MintPy product to GBIS .mat format.
DESCRIPTION¶
usage: save_gbis.py [-h] -g GEOM_FILE [-m MASK_FILE]
- [--ref-lalo REF_LALO REF_LALO] [--nodisplay] [-o OUTFILE]
- [--out-dir OUTDIR] [--ellipsoid2geoid] file [dset]
Convert MintPy product to GBIS .mat format.
positional arguments:¶
options:¶
- -h, --help
- show this help message and exit
- -g GEOM_FILE, --geometry GEOM_FILE
- geometry file
- -m MASK_FILE, --mask MASK_FILE
- mask file.
- --ref-lalo REF_LALO REF_LALO
- custom reference pixel in lat/lon
- --nodisplay
- do not display the figure
- -o OUTFILE, --output OUTFILE
- output file name.
- --out-dir OUTDIR
- custom output directory, ONLY IF --output is not specified.
- --ellipsoid2geoid
- Convert the height of ellipsoid to geoid using "geoidheight" module Download & install geoidheight as below: https://github.com/geodesymiami/2021_Kirishima
references:¶
- Bagnardi, M., and A. Hooper (2018), Inversion of Surface Deformation Data for Rapid Estimates of Source Parameters and Uncertainties: A Bayesian Approach, Geochemistry, Geophysics, Geosystems, 19, doi:10.1029/2018GC007585.
- Yunjun, Z., Amelung, F., & Aoki, Y. (2021), Imaging the hydrothermal system of Kirishima volcanic complex with L-band InSAR time series, Geophysical Research Letters, 48(11), e2021GL092879. doi:10.1029/2021GL092879
example:¶
- save_gbis.py velocity.h5 -g inputs/geometryGeo.h5 -o AlosDT73_20081012_20100302.mat save_gbis.py 20150223_20161031_msk.unw -g inputs/geometryGeo.h5 -o Alos2DT23_20150223_20161031.mat save_gbis.py 20150223_20161031.unw -g inputs/geometryGeo.h5 --out-data ../Model/data --ellipsoid2geoid
| May 2022 | mintpy-save_gbis v1.3.3 |