MaunaLoaTsxA1

geo_velocity.png

geo_temporalCoherence.png

geo_maskTempCoh.png

geo_avgSpatialCoh.png

network.png

coherenceHistory.png

coherenceMatrix.png

rms_timeseriesResidual_ramp.png

temporalCoherence.png

maskTempCoh.png

avgSpatialCoh.png

maskConnComp.png

numTriNonzeroIntAmbiguity.png

numInvIfgram.png

velocity.png

geometryRadar.png

coherence_1.png

coherence_2.png

unwrapPhase_wrap_1.png

unwrapPhase_wrap_2.png

unwrapPhase_1.png

unwrapPhase_2.png

avgPhaseVelocity.png

geo_timeseries_demErr_wrap10.png

geo_timeseries_ramp_demErr_wrap10.png

geometryGeo.png

pbaseHistory.png

timeseries_demErr_wrap10.png

timeseries_ramp_demErr_wrap10.png

timeseries_ramp_wrap10.png

timeseries_wrap10.png

reference_date.txt

20240115

MaunaLoaTsxA1.template

# vim: set filetype=cfg:
topsStack.subswath         = 2                                               # '1 2'
topsStack.boundingBox               = 18.9 20.0 -156.1 -154.5                           # '-1 0.15 -91.6 -90.9'
ssaraopt.relativeOrbit              = 999
relativeOrbit              = 999
##------------------------  MintPy ----------------------------------##
mintpy.load.processor      = gamma
mintpy.load.unwFile        = $SCRATCHDIR/MaunaLoaTsxA1/interferograms/*/diff_*rlks.unw
mintpy.load.corFile        = $SCRATCHDIR/MaunaLoaTsxA1/interferograms/*/filt_*rlks.cor
mintpy.load.connCompFile   = None
mintpy.load.intFile        = None

mintpy.load.demFile        = $SCRATCHDIR/MaunaLoaTsxA1/geometry/sim_*.rdc.dem
mintpy.load.lookupYFile    = $SCRATCHDIR/MaunaLoaTsxA1/geometry/sim_*.UTM_TO_RDC
mintpy.load.lookupXFile    = $SCRATCHDIR/MaunaLoaTsxA1/geometry/sim_*.UTM_TO_RDC
mintpy.load.incAngleFile   = None
mintpy.load.azAngleFile    = None
mintpy.load.shadowMaskFile = None
mintpy.load.waterMaskFile  = None

mintpy.multilook.method     = auto    #[nearest, mean, median], auto for nearest - lines/rows skipping approach
mintpy.multilook.ystep      = 4    #[int >= 1], auto for 1 - no multilooking
mintpy.multilook.xstep      = 4    #[int >= 1], auto for 1 - no multilooking
mintpy.compute.cluster          = local #[local / slurm / pbs / lsf / none], auto for none, cluster type
mintpy.compute.numWorker        = 36 #[int > 1 / all], auto for 4 (local) or 40 (non-local), num of workers
mintpy.troposphericDelay.method = no   # pyaps  #[pyaps / height_correlation / base_trop_cor / no], auto for pyaps

mintpy.deramp                   = quadratic
mintpy.deramp                   = linear
mintpy.network.coherenceBased   = yes       #[yes / no], auto for yes, exclude interferograms with coherence < minCoherence
mintpy.network.keepMinSpanTree  = no
mintpy.network.minRedundancy    = 4
mintpy.reference.lalo           = 19.52,-155.56   # 19.52,-155.56 for Asc, 19.52,-155.51 for Desc
mintpy.save.hdfEos5             = yes                        # [yes / update / no], auto for no, save timeseries to UNAVCO InSAR Archive format
mintpy.save.hdfEos5.update      = yes                        # [yes / no], auto for no, put XXXXXXXX as endDate in output filename
mintpy.save.hdfEos5.subset      = yes     #[yes / no], auto for no, put subset range info   in output filename

##------------------------  HDF-EOS5 --------------------------------##
mission             = TSX                 # ERS,ENV,S1,RS1,RS2,CSK,TSX,JERS,ALOS,ALOS2
relative_orbit      = 999
first_frame         = 2781
last_frame          = 2781
beam_mode           = IS                   # S2,FB08,IW
processing_software = GAMMA