pyint.template

# *********************************** PyINT Template  *******************************************#
#  Modifed Sep. , 2019 - YM.Cao

# -------------------         Basic parameters    -----------------------

DEM = /Users/caoy0a/Documents/SCRATCH/DEM/HawaiiT87F526S1D/HawaiiT87F526S1D.dem    
# if not provide, SRTM-1 will be downloaded and processed automatically.

masterDate     =    20180101    # [If not provided, the first date in the date_list will be selected as the master date]

start_swath    =    1           # [option (for Sentinel-1 only)]
end_swath      =    1           # [option (for Sentinel-1 only)]
start_burst    =    1           # [option: bursts position is based on the master image (for Sentinel-1 only)]
end_burst      =    4           # [option: bursts position is based on the master image (for Sentinel-1 only)]

range_looks    =    20          #  multi-look numbers in range direction
azimuth_looks  =    4           #  multi-look numbers in azimuth direction 

# -------------------         download data    -----------------------

sensor         =   Sentinel-1A    # Envisat, ERS-1/2, ..  please check SSARA for details
track          =    14            # track number of the SAR image
frame          =    75            # frame number of the SAR image [ defined according to ASF ]  
start_time     =    1989-01-01    #
end_time       =    2189-01-01    #

# -------------------   basic parameters for interferometry    -----------------------

dem_lat_ovr    =    0.5          # as to SRTM-1, 0.5 for 60 m, 2 for 15 m
dem_lon_ovr    =    0.5

Igram_Spsflg   =     1           # Implement range spectral filtering
Igram_Azfflg   =     1           # Implement azimuth common band filtering

rwin4cor       =     256         # range window length for coregistration
azwin4cor      =     256         # azimuth window length for coregistration
rsample4cor    =     32          #  range samples used for fitting the coregistration parameters
azsample4cor   =     32          #  azimuth samples used for fitting the coregistration parameters

thresh4cor     =     0.15        # 2016 GAMMA or higher version, for 2015 GAMMA or lower version should be SNR

Igram_Cor_rwin =     5           # range window length for cc_wave coherence estimation
Igram_Cor_awin =     5           # azimuth window length for cc_wave coherence estimation

Igram_Cor_Win  =     5            # cc estimation in adf 
adf_alpha      =     0.4          # adf alpha for Gold-Stein filtering

# -------------------   sim phase    -----------------------

Igram_Flag_TDM =     N            # Y for Tandem-X
Simphase_rpos  =     -
Simphase_azpos =     -
Simphase_rwin  =     256
Simphase_azwin =     256
Simphase_thresh =    - 

# -------------------   unwrap phase    -----------------------  

mcf_triangular  =     0               # triangular type of mcf [0: regular; 1: delaunay;] 
unwrap_patr     =     1               # unwrap patches in range direction
unwrap_pataz    =     1               # unwrap patches in azimuth direction
unwrapThreshold =     0.1             # coherence threshold used for unwrap

# -------------------   geocode    -----------------------  

geo_interp      =     0                #  [0: nearest; 1: bicubic spline]


# -------------------   select interferometric pairs  --------------     

network_method   =     sbas                 # sbas, sequential, delaunay, stars
endDate          =     21000101             # date before this date will be excluded
startDate        =     19000101             # date after this date will be excluded
conNumb          =     2                    # connect number for sequential
max_tb           =     50000                # temporal baseline threshold in days 
max_sb           =     50000                # spatial baseline threshold in meters
exclude_date     =     20180601, 20180702   # exclude the date which will not be used

# -------------------   time-series process    --------------     

download_data   =      0                 # [0: skip; 1: process]
down_parallel   =      1                 # multi-processor number used for downloading

raw2slc_all     =      0                  # i.e., download2slc  [0: skip; 1: process]
raw2slc_all_parallel = 1                  # multi-processor number used 
    
extract_burst_all    = 0                  # for TOPS SLC only  [0: skip; 1: process]
extract_all_parallel = 1                  # multi-processor number used 
    
coreg_all            = 1                  # do coregister  [0: skip; 1: process]
coreg_all_parallel   = 1                  # multi-processor number used [4 or 8]
     
select_pairs         = 1                  # if 0: skip, and use the ifgram_list.txt under PROJECTNAME folder
    
diff_all             = 1                  # generate differential Ifg [0: skip; 1: process]
diff_all_parallel    = 1                  # multi-processor number used  [4 or 8]
    
unwrap_all           = 1                  # unwrap Ifg [0: skip; 1: process]
unwrap_all_parallel  = 1                  # multi-processor number used [8 or 10]
    
geocode_all          = 0                  # geocode diff,unw products [0: skip; 1: process]
geocode_all_parallel = 1                  # multi-processor number used
    
load_data            = 0                  # loading data for mintpy processing [0: skip; 1: process]

# -------------------  Good Luck  --------------