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post_process_Alos.sh
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post_process_Alos.sh
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#! /bin/sh
##### Customized Processing After 1st smallbaselineApp
project='KyushuT424F610_640AlosA'
#####
trans='geomap_4rlks.trans'
tmpl=$TE/$project.template
#cd $SC/$project/TSSAR
smallbaselineApp=0
plot_load_data=0
modify_network=0
unwrap_error=0
phaseCor=0
ts_sum=0
ref_dates=0
deramp=0
timeseries_view=0
velocity=0
geo=1
geo2=1
##------------ MintPy routine processing --------------------##
if [ $smallbaselineApp -eq 1 ]; then
smallbaselineApp.py $tmpl
fi
##------------ Plot Load Data ------------------------------##
if [ $plot_load_data -eq 1 ]; then
## Average Spatial Coherence, more reliable mask source than non-nan and temporal coherence
#generate_mask.py -f average_spatial_coherence.h5 -m 0.7 -o Mask_spatialCoh.h5
view='view4job.py -c gray -m 0 -M 1 --nodisplay -f'
#$view average_spatial_coherence.h5
#$view Mask_spatialCoh.h5
#$view Mask.h5
#$view temporal_coherence.h5
msk='Mask_spatialCoh.h5'
#remove_ramp.py Seeded_LoadedData.h5 quadratic $msk
view='view4job.py -r 3 -p 12 --nodisplay'
#$view -m 0 -M 1 -c gray -f Coherence.h5
#$view -m -7 -M 7 --mask $msk -f Seeded_LoadedData.h5
#$view -m -7 -M 7 --mask $msk -f Seeded_LoadedData_quadratic.h5
#unwrap_error.py -f Seeded_LoadedData.h5 -m $msk -o Seeded_LoadedData_unwCorTri.h5
#remove_plane.py Seeded_LoadedData_unwCorTri.h5 quadratic $msk
fi
## Based on plotted Coherence and LoadedData image, select low coherent ifgs and put them in template file.
##------------ Modify Network and Re-run smallbaselineApp ----------##
if [ $modify_network -eq 1 ]; then
modify_network.py -f LoadedData.h5 -C Coherence.h5 -T $tmpl
mean_spatial_coherence.py Modified_Coherence.h5 Modified_average_spatial_coherence.h5
# generate_mask.py -f Modified_average_spatial_coherence.h5 -m 0.75 -o Mask_spatialCoh_Modified.h5
view='view4job.py -m 0 -M 1 -c gray --nodisplay -f'
$view Modified_Mask.h5
$view Modified_average_spatial_coherence.h5
#plot_network.py -f Modified_LoadedData.h5 --nodisplay
fi
##------------ PU Error correction -------------------------##
##### PU Correction using bonding points
igram='Seeded_Modified_LoadedData'
if [ $unwrap_error -eq 1 ]; then
## Generate Individual Mask for Unwrapping Error Correction
ue_generate_mask=0
if [ $ue_generate_mask -eq 1 ]; then
#reference_point.py -f Modified_LoadedData.h5 -t $tmpl
#cp temporal_coherence.h5 temporal_coherence_1.h5
#generate_mask.py -f temporal_coherence_1.h5 -m 0.7 -o mask_1.h5
##### Calculate with Subset, faster
## width = 2832, length = 6728
sub='-y 4500:6700 -x 0:1500'
sub2='-y -4500:2228 -x 0:2832'
subset.py -f ${igram}.h5 $sub
subset.py -f Mask_spatialCoh.h5 $sub
reference_point.py -f subset_${igram}.h5 -x 550 -y 550 -M subset_Mask_spatialCoh.h5 -o subset_${igram}_2.h5
igram_inversion.py -f subset_${igram}_2.h5 -o subset_timeseries_2.h5
temporal_coherence.py subset_${igram}_2.h5 subset_timeseries_2.h5 subset_temporal_coherence_3.h5
subset.py -f subset_temporal_coherence_3.h5 $sub2 -o temporal_coherence_3.h5
generate_mask.py -f temporal_coherence_3.h5 -m 0.7 -o mask_3.h5
image_math.py mask_3.h5 '*' 3 mask_3_3.h5
#reference_point.py -f ${igram}.h5 -x 840 -y 5390 -o ${igram}_2.h5
#igram_inversion.py -f ${igram}_2.h5 -o timeseries_2.h5
#temporal_coherence.py ${igram}_2.h5 timeseries_2.h5 temporal_coherence_2.h5
#generate_mask.py -f temporal_coherence_2.h5 -m 0.7 -o mask_2.h5
#image_math.py mask_2.h5 '*' 2 mask_2_2.h5
reference_point.py -f ${igram}.h5 -x 550 -y 5050 -o ${igram}_2.h5
igram_inversion.py -f ${igram}_2.h5 -o timeseries_2.h5
temporal_coherence.py ${igram}_2.h5 timeseries_2.h5 temporal_coherence_3.h5
generate_mask.py -f temporal_coherence_3.h5 -m 0.7 -o mask_3.h5
image_math.py mask_3.h5 '*' 3 mask_3_3.h5
reference_point.py -f ${igram}.h5 -x 630 -y 5860 -o ${igram}_2.h5
igram_inversion.py -f ${igram}_2.h5 -o timeseries_2.h5
temporal_coherence.py ${igram}_2.h5 timeseries_2.h5 temporal_coherence_4.h5
generate_mask.py -f temporal_coherence_4.h5 -m 0.7 -o mask_4.h5
image_math.py mask_4.h5 '*' 4 mask_4_4.h5
fi
#cd mask
#generate_mask.py -f temporal_coherence_2.h5 -m 0.7 -x 660:930 -y 5200:5500 -o mask_2.h5
#image_math.py mask_2.h5 '*' 2 mask_2_2.h5
#diff.py mask_1.h5 mask_2.h5 mask_1_2.h5
#generate_mask.py -f mask_1_2.h5 -m 0.5 -x 910:944 -y 5457:5496 -o mask_small_1.h5
#generate_mask.py -f mask_1_2.h5 -m 0.5 -x 877:985 -y 5263:5357 -o mask_small_2.h5
#diff.py mask_1_2.h5 mask_small_1.h5 mask_1_3.h5
#diff.py mask_1_3.h5 mask_small_2.h5 mask_1_4.h5
#generate_mask.py -f mask_1_4.h5 -m 0.5 -o mask_1_1.h5
#cd ..
#add.py -f mask_1_1.h5,mask_2_2.h5,mask_3_3.h5,mask_4_4.h5 -o Mask_all.h5
msk='Mask_all.h5'
view='view.py --nodisplay -f'
#$view mask_1.h5
#$view mask_2.h5
#$view $msk
#reference_point.py -f Modified_LoadedData.h5 -t $tmpl -M $msk
unwrap_error.py -f ${igram}.h5 -m $msk -t $tmpl --ramp quadratic --save-detrend
remove_plane.py ${igram}_unwCor.h5 quadratic $msk
view='view4job.py -r 6 -p 19 -m -7 -M 7 --mask Mask_all.h5 --noaxis --nodisplay -f'
#$view ${igram}.h5
$view ${igram}_unwCor.h5
$view ${igram}_unwCor_quadratic.h5
#### Mask with Bonding Points
#point_yx='5430,955,5429,865,5293,834,5178,832,5403,780,5714,612'
#line_yx='5430,955,5429,865;5293,834,5178,832;5403,780,5714,612'
#view.py --point=${point_yx} --line=${line_yx} --nodisplay -f $msk -o bonding_points.png
#smallbaselineApp.py $tmpl
fi
##### Display Iono Pairs
view='view.py -r 3 -p 5 -m -7 -M 7 -f Seeded_Modified_LoadedData_unwCor_plane_masked.h5 --nodisplay'
#$view -d 100606 -o Seeded_Modified_LoadedData_unwCor_plane_masked_100606.png
#$view -d 060526 -o Seeded_Modified_LoadedData_unwCor_plane_masked_060526.png
##------------ Mask ----------------------------------------##
#igram_inversion.py Seeded_Modified_LoadedData_unwCor.h5
#temporal_coherence.py Seeded_Modified_LoadedData_unwCor.h5 timeseries.h5
#generate_mask.py -f temporal_coherence.h5 -m 0.7 -x 180:2560 -o Mask_tempCoh_dis.h5
msk='Mask_tempCoh_dis.h5'
view='view.py -m 0 -M 1 -c gray --nodisplay -f'
#$view $msk
#$view temporal_coherence.h5
##------------ Phase Correction ----------------------------##
if [ $phaseCor -eq 1 ]; then
remove_plane.py -f timeseries_ECMWF.h5 -t $tmpl
dem_error.py timeseries_ECMWF_plane.h5 Seeded_Modified_LoadedData_unwCor.h5
masking.py -f DEM_error.h5 -m $msk
view.py -m -25 -M 25 --nodisplay -f DEM_error_masked.h5
fi
ts='timeseries_ECMWF_plane_demCor.h5'
##------------ Reference & Exclude Dates -------------------##
## Reference date and drop turbulence dates
if [ $ts_sum -eq 1 ]; then
#sum_epochs.py timeseries_ECMWF_demCor_plane.h5 ts_sum_0.h5
view.py -r 3 -p 10 -m 0 -M 1 --mask $msk --noaxis --nodisplay -f ts_sum_0.h5
fi
#ex_date='20060526,20060826,20070111,20091019,20100606,20100906'
ex_date='20060624,20070812,20080629,20090702,20090817,20091002,20100705'
ref_date='20090214'
if [ $ref_dates -eq 1 ]; then
#reference_date.py timeseries_ECMWF_demCor.h5 $ref_date
#remove_plane.py -f timeseries_ECMWF_demCor_ref${ref_date}.h5 -s quadratic -m $msk
ts='timeseries_ECMWF_demCor_ref'${ref_date}'_quadratic.h5'
#sum_epochs.py $ts ts_sum.h5
view4job.py -r 3 -p 10 -m 0 -M 1 --noaxis --nodisplay --mask $msk -f ts_sum.h5
fi
if [ $deramp -eq 1 ]; then
ysub='0,4000,3800,6728'
remove_plane.py -f timeseries_ECMWF_demCor_ref${ref_date}.h5 -s quadratic -m $msk -y $ysub --save-mask
ts='timeseries_ECMWF_demCor_ref'${ref_date}'_quadratic.h5'
#sum_epochs.py $ts ts_sum.h5
#view4job.py -r 2 -p 11 -m 0 -M 1 --noaxis --nodisplay --mask $msk -f ts_sum.h5
#diff.py timeseries_ECMWF_demCor_ref${ref_date}.h5 ${ts} 2quadratic.h5
view='view.py -r 4 -p 8 --noaxis --nodisplay --mask '$msk
#$view -m 0 -M 1 -f ts_sum.h5
#$view -u cm -m -25 -M 25 -f quadratic.h5
#$view -u cm -m -5 -M 5 -f timeseries_ECMWF_demCor_quadratic.h5
#reference_date.py timeseries_ECMWF_demCor_quadratic.h5 $ref_date
#$view -u cm -m -5 -M 5 -f timeseries_ECMWF_demCor_quadratic_ref${ref_date}.h5
#$view -u cm -m -5 -M 5 -f timeseries_ECMWF_demCor_quadratic_ref${ref_date}.h5 -E ${ex_date}
fi
ts='timeseries_ECMWF_demCor_ref'${ref_date}'_quadratic.h5'
##------------ Time Series Correction View -----------------##
## MERRA
#tropo_pyaps.py -f timeseries.h5 -d radar_4rlks.hgt -s MERRA -h 12:00 -i incidence_angle.h5
if [ $timeseries_view -eq 1 ]; then
view='view4job.py -r 3 -p 10 -u cm -m -25 -M 25 --mask '$msk' --noaxis --nodisplay -f'
#$view timeseries.h5
#$view timeseries_ECMWF.h5
#$view timeseries_ECMWF_demCor.h5
#$view timeseries_ECMWF_demCor_ref${ref_date}.h5
#$view ${ts} -o ${ts}_0.png
view='view4job.py -r 3 -p 10 -u cm -m -5 -M 5 --mask '$msk' --noaxis --nodisplay -f'
#$view ${ts}
$view ${ts} -E $ex_date
##### error
#diff.py timeseries_ECMWF_demCor_plane.h5 timeseries_ECMWF_demCor.h5 plane.h5
#masking.py -m $msk -f ECMWF.h5
#masking.py -m $msk -f MERRA.h5
#masking.py -m $msk -f DEM_error.h5
#masking.py -m $msk -f plane.h5
#view.py -r 4 -p 8 -u cm -m -5 -M 5 --noaxis --nodisplay -f ECMWF_masked.h5
#view.py -r 4 -p 8 -c jet -m -25 -M 25 --nodisplay -f DEM_error_masked.h5
#view.py -r 4 -p 8 -u cm -m -25 -M 25 --noaxis --nodisplay -f plane_masked.h5
fi
##------------ Velocity ---------------------------------------##
if [ $velocity -eq 1 ]; then
timeseries2velocity.py -f $ts -E $ex_date
view.py -u cm/yr -m -2 -M 2 --mask $msk --nodisplay -f velocity_ex.h5
fi
if [ $geo -eq 1 ]; then
##### Geocoding
#geocode.py $msk $trans
#geocode.py velocity_ex.h5 $trans
#geocode.py ${ts} $trans
geocode.py Modified_Coherence.h5 $trans
## Find subset.lalo based on geo_velocity.h5
##### Seeding
#reference_point.py -t $tmpl -f geo_velocity_ex.h5
#reference_point.py -t $tmpl -f geo_${ts}
fi
if [ $geo2 -eq 1 ]; then
##### Subset
#subset.py -t $tmpl -f Seeded_geo_*.h5,geo_$msk,gsi10m_30m.dem --parallel
subset.py -t $tmpl -f geo_Modified_Coherence.h5
##### masking
#masking.py -m subset_geo_$msk -f subset_Seeded_geo_velocity_ex.h5
#masking.py -m subset_geo_$msk -f subset_Seeded_geo_${ts}
#multi_looking.py subset_gsi10m_30m.dem 5 5 subset_gsi10m_150m.dem
#view.py -u cm/yr -m -2 -M 2 --mask subset_geo_$msk -D subset_gsi10m_150m.dem --save -f subset_Seeded_geo_velocity_ex.h5
#save_kml.py -m -0.02 -M 0.02 -f subset_Seeded_geo_velocity_ex_masked.h5
fi