BaekduSenDT134

geo_velocity.png

geo_velocity.png

geo_temporalCoherence.png

geo_temporalCoherence.png

geo_maskTempCoh.png

geo_maskTempCoh.png

geo_avgSpatialCoh.png

geo_avgSpatialCoh.png

network.png

network.png

coherenceHistory.png

coherenceHistory.png

coherenceMatrix.png

coherenceMatrix.png

rms_timeseriesResidual_ramp.png

rms_timeseriesResidual_ramp.png

temporalCoherence.png

temporalCoherence.png

maskTempCoh.png

maskTempCoh.png

avgSpatialCoh.png

avgSpatialCoh.png

maskConnComp.png

maskConnComp.png

numTriNonzeroIntAmbiguity.png

numTriNonzeroIntAmbiguity.png

numInvIfgram.png

numInvIfgram.png

velocity.png

velocity.png

geometryRadar.png

geometryRadar.png

coherence_1.png

coherence_1.png

coherence_2.png

coherence_2.png

coherence_3.png

coherence_3.png

coherence_4.png

coherence_4.png

unwrapPhase_wrap_1.png

unwrapPhase_wrap_1.png

unwrapPhase_wrap_2.png

unwrapPhase_wrap_2.png

unwrapPhase_wrap_3.png

unwrapPhase_wrap_3.png

unwrapPhase_wrap_4.png

unwrapPhase_wrap_4.png

unwrapPhase_1.png

unwrapPhase_1.png

unwrapPhase_2.png

unwrapPhase_2.png

unwrapPhase_3.png

unwrapPhase_3.png

unwrapPhase_4.png

unwrapPhase_4.png

connectComponent_1.png

connectComponent_1.png

connectComponent_2.png

connectComponent_2.png

connectComponent_3.png

connectComponent_3.png

connectComponent_4.png

connectComponent_4.png

timeseries_demErr_wrap10_1.png

timeseries_demErr_wrap10_1.png

timeseries_demErr_wrap10_2.png

timeseries_demErr_wrap10_2.png

geo_timeseries_demErr_wrap10_1.png

geo_timeseries_demErr_wrap10_1.png

geo_timeseries_demErr_wrap10_2.png

geo_timeseries_demErr_wrap10_2.png

avgPhaseVelocity.png

avgPhaseVelocity.png

pbaseHistory.png

pbaseHistory.png

timeseries_wrap10_1.png

timeseries_wrap10_1.png

timeseries_wrap10_2.png

timeseries_wrap10_2.png

reference_date.txt

20210116

geo_velocity.kmz

Download file.

BaekduSenDT134.template

ssaraopt.platform                   = SENTINEL-1A,SENTINEL-1B                                                                             
#ssaraopt.startDate                  = 20160101
#ssaraopt.endDate                    = 20201211
ssaraopt.relativeOrbit              = 134                                                                                                
####################
topsStack.boundingBox               = 41.7 42.2 126 130                            # '-1 0.15 -91.6 -90.9'                           
topsStack.subswath                  = 3                                               # '1 2'                                           
topsStack.numConnections            = 3                                                 # comment                                         
topsStack.azimuthLooks              = 4                                                 # comment                                         
topsStack.rangeLooks                = 16                                                # comment                                         
topsStack.filtStrength              = 0.4                                               # comment                                         
topsStack.unwMethod                 = snaphu                                            # comment                                         
topsStack.coregistration            = auto                                              # [NESD geometry], auto for NESD                  
####################
mintpy.load.autoPath                = yes
mintpy.compute.cluster              = local
mintpy.compute.numWorker            = 32
mintpy.plot.maxMemory               = 32                           # [float], auto for 4, max memory used by one call of view.py for plotting 
mintpy.networkInversion.parallel    = no                           # [yes / no], auto for no, parallel processing    
mintpy.save.hdfEos5                 = yes                          # [yes / update / no], auto for no, save timeseries to UNAVCO InSAR Archive format
mintpy.save.hdfEos5.subset          = yes                          # [yes / no], auto for no, put subset range info   in output filenam
mintpy.save.hdfEos5.update          = no                           # [yes / no], auto for no, put XXXXXXXX as endDate in output filename
mintpy.troposphericDelay.method     = no                           # [pyaps / height_correlation / base_trop_cor / no], auto for pyaps
mintpy.networkInversion.minTempCoh  = auto

####################
minsar.miaplpyDir.addition           = date          #[name / lalo / no ]  auto for no (miaply_$name_startDate_endDate))
mintpy.subset.lalo                   = 41.95:42.06,127.97:128.174   #[S:N,W:E / no], auto for no
miaplpy.subset.lalo                  = 41.95:42.06,127.97:128.174   #[S:N,W:E / no], auto for no
miaplpy.start.endDate                 = auto
miaplpy.load.endDate                 = auto
mintpy.geocode.laloStep              = 0.0005,0.0005 
#mintpy.reference.minCoherence        = 0.3   #[0.0-1.0], auto for 0.85, minimum coherence for auto method

#miaplpy.interferograms.delaunayTempThresh = 90     # [days] temporal threshold for delaunay triangles, auto for 60
miaplpy.interferograms.networkType   = single_reference    # network
miaplpy.interferograms.networkType   = delaunay            # network

#############################################
miaplpy.load.processor               = isce
miaplpy.multiprocessing.numProcessor = 40
miaplpy.inversion.rangeWindow        = 24   # range window size for searching SHPs, auto for 15
miaplpy.inversion.azimuthWindow      = 7   # azimuth window size for searching SHPs, auto for 15
miaplpy.timeseries.tempCohType       = full  # [full, average], auto for full.
miaplpy.timeseries.minTempCoh        = 0.85     # auto for 0.5
#############################################
minsar.insarmaps_dataset             = DS       # [PS,DS,PSDS,geo,all], miaplpy dataset to ingest (Default: geo) (MintPy is always geo)
insarmaps_flag                       = False