https://github.com/GeoscienceAustralia/PyRate
Tip revision: bc2ff7e080ac3dc8ec5532ee980f17f2a9311505 authored by Matt Garthwaite on 29 July 2019, 04:05:46 UTC
Merge pull request #207 from GeoscienceAustralia/release-0.3.0
Merge pull request #207 from GeoscienceAustralia/release-0.3.0
Tip revision: bc2ff7e
input_parameters.conf
# PyRate configuration file for GAMMA-format interferograms
#
#------------------------------------
# input/output parameters
# Directory for the (unwrapped) interferograms.
obsdir: tests/test_data/small_test/gamma_obs
# File containing the list of (raw) interferograms.
ifgfilelist: tests/test_data/small_test/gamma_obs/ifms_17
# The DEM used by the processing software
demfile: tests/test_data/small_test/gamma_obs/20060619_utm.dem
# The DEM header file from GAMMA (*.par) or ROI_PAC (*.rsc).
demHeaderFile: tests/test_data/small_test/gamma_obs/20060619_utm_dem.par
# GAMMA only: The directory containing GAMMA slc.par files for all epochs
slcFileDir: tests/test_data/small_test/gamma_obs
# Where to write the outputs
outdir: out/
# InSAR processing software: ROI_PAC = 0, GAMMA = 1
processor: 1
# No data averaging threshold for prepifg
noDataAveragingThreshold: 0.5
# The no data value in the interferograms
noDataValue: 0.0
# Nan conversion flag. Set to 1 if missing (0) phase values are converted to nan
nan_conversion: 1
#-----------------------------------
# Multi-threading parameters: used by linrate/timeseries/gamma prepifg
# gamma prepifg runs in parallel in single machine if parallel != 0
# parallel = 1, linrate/timeseries computation is done parallelly by the rows
# parallel = 2, linrate/timeseries computation is done parallelly for each pixel
# parallel = 0, linrate/timeseries computation is done serially pixel by pixel
parallel: 0
processes: 8
#------------------------------------
# Interferogram multi-look and crop options
# ifgcropopt: 1 = minimum 2 = maximum 3 = customise 4 = all ifms already same size
# ifglksx/y: multi-look/subsampling factor in east and north direction respectively
# ifgxfirst,ifgyfirst: x,y of top-left corner
# ifgxlast,ifgylast: x,y of bottom-right corner
ifgcropopt: 1
ifglksx: 1
ifglksy: 1
ifgxfirst: 150.92
ifgxlast: 150.94
ifgyfirst: -34.18
ifgylast: -34.22
#------------------------------------
# Reference pixel search options
# refx/y: coordinate of reference pixel. If <= 0 then search for pixel will be performed
# refnx/y: number of search grid points in x/y direction
# refchipsize: chip size of the data window at each search grid point
# refminfrac: minimum fraction of valid (non-NaN) pixels in the data window
refx: 0
refy: 0
refnx: 5
refny: 5
refchipsize: 5
refminfrac: 0.8
#------------------------------------
# Orbital error correction
# orbfit: ON = 1, OFF = 0
# orbfitmethod = 1: independent method; 2: network method
# orbfitdegrees: Degree of polynomial surface to fit (1 = planar; 2 = quadratic; 3 = part-cubic)
# orbfitlksx/y: additional multi-look factor for orbital correction
orbfit: 1
orbfitmethod: 1
orbfitdegrees: 1
orbfitlksx: 1
orbfitlksy: 1
#------------------------------------
# Reference phase calculation method
# refest: 1 = median of the whole interferogram
# refest: 2 = median within the window surrounding the chosen reference pixel
refest: 1
#------------------------------------
# APS correction using spatio-temporal filter
# apsest: ON = 1, OFF = 0
# Spatial low-pass filter parameters
# slpfmethod: filter method (1: butterworth; 2: gaussian)
# slpfcutoff: cutoff d0 for both butterworth and gaussian filters in km
# slpforder: order n for butterworth filter (default 1)
# slpnanfill: 1 for interpolation, 0 for zero fill
# slpnanfill_method: linear, nearest, cubic; only used when slpnanfill=1
# Temporal low-pass filter parameters
# tlpfmethod: 1 = Gaussian, 2 = Triangular, 3 = Mean filter
# tlpfcutoff: cutoff t0 for gaussian filter in year;
# tlpfpthr: valid pixel threshold;
apsest: 1
slpfmethod: 2
slpfcutoff: 0
slpforder: 1
slpnanfill: 1
slpnanfill_method: cubic
tlpfmethod: 3
tlpfcutoff: 0.25
tlpfpthr: 1
#------------------------------------
# Time Series Calculation
# tscal: YES = 1, NO = 0
# tsmethod: Method for time series inversion (1 = Laplacian Smoothing; 2 = SVD)
# smorder: order of Laplacian smoothing operator (1 = first-order difference; 2 = second-order difference)
# smfactor: smoothing factor for Laplacian smoothing
# ts_pthr: valid observations threshold for time series inversion
tscal: 1
tsmethod: 2
smorder: 2
smfactor: -0.25
ts_pthr: 10
#------------------------------------
# Linear Rate calculation
# pthr: minimum number of coherent ifg connections for each pixel
# nsig: n-sigma used as residuals threshold for iterativelLeast squares stacking
# maxsig: maximum residual used as a threshold for values in the rate map
nsig: 3
pthr: 5
maxsig: 2