Drivers¶
This is the core module of package pyroSAR.
It contains the drivers for the different SAR image formats and offers
functionality for retrieving metadata, unpacking images, downloading ancillary files like DEMs and
Orbit State Vector files as well as archiving scenes in a database.
The ID
class and its subclasses allow easy and standardized access to the metadata of
images from different SAR sensors.
classes
Abstract class for SAR meta data handlers |
|
Handler class for ALOS-PALSAR data in CEOS format |
|
Handler class for ERS data in CEOS format |
|
Handler class for SAR data in ESA format (Envisat ASAR, ERS-1/2) |
|
Handler class for Sentinel-1 data |
|
Handler class for TerraSAR-X and TanDEM-X data |
|
Utility for storing SAR image metadata in a database |
functions
identify a SAR scene and return the appropriate metadata handler object |
|
wrapper function for returning metadata handlers of all valid scenes in a list, similar to function |
|
Filter a list of pyroSAR objects to those that have not yet been processed and stored in the defined directory. |
|
find files in a scene archive, which match a pattern |
|
Load a file in a SAR scene archive into a readable file object. |
|
this function gathers known time formats provided in the different SAR products and converts them to a common standard of the form YYYYMMDDTHHMMSS |
|
drop (delete) a scene database |
-
class
pyroSAR.drivers.
Archive
(dbfile, custom_fields=None, postgres=False, user='postgres', password='1234', host='localhost', port=5432, cleanup=True)[source]¶ Bases:
object
Utility for storing SAR image metadata in a database
- Parameters
dbfile (str) – the filename for the SpatiaLite database. This might either point to an existing database or will be created otherwise. If postgres is set to True, this will be the name for the PostgreSQL database.
custom_fields (dict) – a dictionary containing additional non-standard database column names and data types; the names must be attributes of the SAR scenes to be inserted (i.e. id.attr) or keys in their meta attribute (i.e. id.meta[‘attr’])
postgres (bool) – enable postgres driver for the database. Default: False
user (str) – required for postgres driver: username to access the database. Default: ‘postgres’
password (str) – required for postgres driver: password to access the database. Default: ‘1234’
host (str) – required for postgres driver: host where the database is hosted. Default: ‘localhost’
port (int) – required for postgres driver: port number to the database. Default: 5432
cleanup (bool) – check whether all registered scenes exist and remove missing entries?
Examples
Ingest all Sentinel-1 scenes in a directory and its sub-directories into the database:
>>> from pyroSAR import Archive, identify >>> from spatialist.ancillary import finder >>> dbfile = '/.../scenelist.db' >>> archive_s1 = '/.../sentinel1/GRD' >>> scenes_s1 = finder(archive_s1, [r'^S1[AB].*\.zip'], regex=True, recursive=True) >>> with Archive(dbfile) as archive: >>> archive.insert(scenes_s1)
- select all Sentinel-1 A/B scenes stored in the database, which
overlap with a test site
were acquired in Ground-Range-Detected (GRD) Interferometric Wide Swath (IW) mode before 2018
contain a VV polarization image
have not been processed to directory outdir before
>>> from pyroSAR import Archive >>> from spatialist import Vector >>> archive = Archive('/.../scenelist.db') >>> site = Vector('/path/to/site.shp') >>> outdir = '/path/to/processed/results' >>> maxdate = '20171231T235959' >>> selection_proc = archive.select(vectorobject=site, processdir=outdir, >>> maxdate=maxdate, sensor=('S1A', 'S1B'), >>> product='GRD', acquisition_mode='IW', vv=1) >>> archive.close()
Alternatively, the with statement can be used. In this case to just check whether one particular scene is already registered in the database:
>>> from pyroSAR import identify, Archive >>> scene = identify('S1A_IW_SLC__1SDV_20150330T170734_20150330T170801_005264_006A6C_DA69.zip') >>> with Archive('/.../scenelist.db') as archive: >>> print(archive.is_registered(scene.scene))
When providing ‘postgres’ as driver, a PostgreSQL database will be created at a given host. Additional arguments are required.
>>> from pyroSAR import Archive, identify >>> from spatialist.ancillary import finder >>> dbfile = 'scenelist_db' >>> archive_s1 = '/.../sentinel1/GRD' >>> scenes_s1 = finder(archive_s1, [r'^S1[AB].*\.zip'], regex=True, recursive=True) >>> with Archive(dbfile, driver='postgres', user='user', password='password', host='host', port=5432) as archive: >>> archive.insert(scenes_s1)
-
add_tables
(tables, verbose=False)[source]¶ Add tables to the database per
sqlalchemy.schema.Table
Tables provided here will be added to the database. Notice that columns using Geometry must have setting management=True for SQLite, for example: bbox = Column(Geometry(‘POLYGON’, management=True, srid=4326))- Parameters
tables (
sqlalchemy.schema.Table
orlist
ofsqlalchemy.schema.Table
) – Tables provided here will be added to the database. Notice that columns using Geometry must have setting management=True for SQLite, for example: bbox = Column(Geometry(‘POLYGON’, management=True, srid=4326))verbose (bool) – print info
-
cleanup
()[source]¶ Remove all scenes from the database, which are no longer stored in their registered location
-
drop_element
(scene, with_duplicates=False)[source]¶ Drop a scene from the data table. If duplicates table contains matching entry, it will be moved to the data table.
-
export2shp
(path, table='data')[source]¶ export the database to a shapefile
- Parameters
path (str) – the path of the shapefile to be written. This will overwrite other files with the same name. If a folder is given in path it is created if not existing. If the file extension is missing ‘.shp’ is added.
table (str) – the table to write to the shapefile; either ‘data’ (default) or ‘duplicates’
-
filter_scenelist
(scenelist)[source]¶ Filter a list of scenes by file names already registered in the database.
- Parameters
scenelist (
list
ofstr
orpyroSAR.drivers.ID
) – the scenes to be filtered- Returns
the file names of the scenes whose basename is not yet registered in the database
- Return type
-
get_colnames
(table='data')[source]¶ Return the names of all columns of a table.
- Returns
the column names of the chosen table
- Return type
-
get_unique_directories
()[source]¶ Get a list of directories containing registered scenes
- Returns
the directory names
- Return type
-
move
(scenelist, directory, verbose=False)[source]¶ Move a list of files while keeping the database entries up to date. If a scene is registered in the database (in either the data or duplicates table), the scene entry is directly changed to the new location.
-
select
(vectorobject=None, mindate=None, maxdate=None, processdir=None, recursive=False, polarizations=None, verbose=False, **args)[source]¶ select scenes from the database
- Parameters
vectorobject (
Vector
) – a geometry with which the scenes need to overlapmindate (str) – the minimum acquisition date in format YYYYmmddTHHMMSS
maxdate (str) – the maximum acquisition date in format YYYYmmddTHHMMSS
processdir (str) – a directory to be scanned for already processed scenes; the selected scenes will be filtered to those that have not yet been processed
recursive (bool) – should also the subdirectories of the processdir be scanned?
polarizations (list) – a list of polarization strings, e.g. [‘HH’, ‘VV’]
verbose (bool) – print details about the selection including the SQL query?
**args – any further arguments (columns), which are registered in the database. See
get_colnames()
- Returns
the file names pointing to the selected scenes
- Return type
-
class
pyroSAR.drivers.
CEOS_ERS
(scene)[source]¶ Bases:
pyroSAR.drivers.ID
Handler class for ERS data in CEOS format
- Sensors:
ERS1
ERS2
- Reference:
ER-IS-EPO-GS-5902-3: Annex C. ERS SAR.SLC/SLC-I. CCT and EXABYTE (ESA 1998)
-
getCorners
()[source]¶ derive the corner coordinates from a SAR scene
- Returns
dictionary with keys xmin, xmax, ymin and ymax
- Return type
-
scanMetadata
()[source]¶ scan SAR scenes for metadata attributes. The returned dictionary is registered as attribute meta by the class upon object initialization. This dictionary furthermore needs to return a set of standardized attribute keys, which are directly registered as object attributes.
- Returns
the derived attributes
- Return type
-
class
pyroSAR.drivers.
CEOS_PSR
(scene)[source]¶ Bases:
pyroSAR.drivers.ID
Handler class for ALOS-PALSAR data in CEOS format
- Sensors:
PSR1
PSR2
- PALSAR-1:
- References:
- Products / processing levels:
1.0
1.1
1.5
- Acquisition modes:
AB: [SP][HWDPC]
- A: supplemental remarks of the sensor type:
S: Wide observation mode
P: all other modes
- B: observation mode
H: Fine mode
W: ScanSAR mode
D: Direct downlink mode
P: Polarimetry mode
C: Calibration mode
- PALSAR-2:
- Reference:
ALOS-2/PALSAR-2 Level 1.1/1.5/2.1/3.1 CEOS SAR Product Format Description (JAXA 2014).
- Products / processing levels:
1.0
1.1
1.5
- Acquisition modes:
SBS: Spotlight mode
UBS: Ultra-fine mode Single polarization
UBD: Ultra-fine mode Dual polarization
HBS: High-sensitive mode Single polarization
HBD: High-sensitive mode Dual polarization
HBQ: High-sensitive mode Full (Quad.) polarimetry
FBS: Fine mode Single polarization
FBD: Fine mode Dual polarization
FBQ: Fine mode Full (Quad.) polarimetry
WBS: Scan SAR nominal [14MHz] mode Single polarization
WBD: Scan SAR nominal [14MHz] mode Dual polarization
WWS: Scan SAR nominal [28MHz] mode Single polarization
WWD: Scan SAR nominal [28MHz] mode Dual polarization
VBS: Scan SAR wide mode Single polarization
VBD: Scan SAR wide mode Dual polarization
-
getCorners
()[source]¶ derive the corner coordinates from a SAR scene
- Returns
dictionary with keys xmin, xmax, ymin and ymax
- Return type
-
property
led_filename
¶
-
scanMetadata
()[source]¶ scan SAR scenes for metadata attributes. The returned dictionary is registered as attribute meta by the class upon object initialization. This dictionary furthermore needs to return a set of standardized attribute keys, which are directly registered as object attributes.
- Returns
the derived attributes
- Return type
-
class
pyroSAR.drivers.
ESA
(scene)[source]¶ Bases:
pyroSAR.drivers.ID
Handler class for SAR data in ESA format (Envisat ASAR, ERS-1/2)
- Sensors:
ASAR
ERS1
ERS2
-
getCorners
()[source]¶ derive the corner coordinates from a SAR scene
- Returns
dictionary with keys xmin, xmax, ymin and ymax
- Return type
-
scanMetadata
()[source]¶ scan SAR scenes for metadata attributes. The returned dictionary is registered as attribute meta by the class upon object initialization. This dictionary furthermore needs to return a set of standardized attribute keys, which are directly registered as object attributes.
- Returns
the derived attributes
- Return type
-
class
pyroSAR.drivers.
ID
(metadict)[source]¶ Bases:
object
Abstract class for SAR meta data handlers
-
bbox
(outname=None, driver=None, overwrite=True)[source]¶ get the bounding box of a scene either as a vector object or written to a shapefile
- Parameters
- Returns
the vector object if outname is None, None otherwise
- Return type
-
property
compression
¶ check whether a scene is compressed into an tarfile or zipfile or not at all
-
examine
(include_folders=False)[source]¶ check whether any items in the SAR scene structure (i.e. files/folders) match the regular expression pattern defined by the class. On success the item is registered in the object as attribute file.
-
export2dict
()[source]¶ Return the uuid and the metadata that is defined in self.locals as a dictionary
-
export2sqlite
(dbfile)[source]¶ Export relevant metadata to a sqlite database
- Parameters
dbfile (str) – the database file
-
findfiles
(pattern, include_folders=False)[source]¶ find files in the scene archive, which match a pattern; see
findfiles()
-
abstract
getCorners
()[source]¶ derive the corner coordinates from a SAR scene
- Returns
dictionary with keys xmin, xmax, ymin and ymax
- Return type
-
getFileObj
(filename)[source]¶ Load a file into a readable file object.
- Parameters
filename (str) – the name of a file in the scene archive, easiest to get with method
findfiles()
- Returns
a file pointer object
- Return type
-
getHGT
()[source]¶ get the names of all SRTM HGT tiles overlapping with the SAR scene
- Returns
names of the SRTM HGT tiles
- Return type
-
is_processed
(outdir, recursive=False)[source]¶ check whether a scene has already been processed and stored in the defined output directory (and subdirectories if scanned recursively)
-
outname_base
(extensions=None)[source]¶ parse a string containing basic information about the scene in standardized format. Currently this id contains the sensor (4 digits), acquisition mode (4 digits), orbit (1 digit) and acquisition start time (15 digits)., e.g. S1A__IW___A_20150523T122350
- Parameters
extensions (list of str) – the names of additional parameters to append to the basename, e.g. [‘orbitNumber_rel’]
- Returns
a standardized name unique to the scene
- Return type
-
static
parse_date
(x)[source]¶ this function gathers known time formats provided in the different SAR products and converts them to a common standard of the form YYYYMMDDTHHMMSS.
-
abstract
quicklook
(outname, format='kmz')[source]¶ export a quick look image of the scene
- Parameters
Examples
>>> from pyroSAR import identify >>> scene = identify('S1A_IW_GRDH_1SDV_20180101T170648_20180101T170713_019964_021FFD_DA78.zip') >>> scene.quicklook('S1A__IW___A_20180101T170648.kmz')
-
abstract
scanMetadata
()[source]¶ scan SAR scenes for metadata attributes. The returned dictionary is registered as attribute meta by the class upon object initialization. This dictionary furthermore needs to return a set of standardized attribute keys, which are directly registered as object attributes.
- Returns
the derived attributes
- Return type
-
-
class
pyroSAR.drivers.
SAFE
(scene)[source]¶ Bases:
pyroSAR.drivers.ID
Handler class for Sentinel-1 data
- Sensors:
S1A
S1B
- References:
S1-RS-MDA-52-7443 Sentinel-1 IPF Auxiliary Product Specification
MPC-0243 Masking “No-value” Pixels on GRD Products generated by the Sentinel-1 ESA IPF
-
getCorners
()[source]¶ derive the corner coordinates from a SAR scene
- Returns
dictionary with keys xmin, xmax, ymin and ymax
- Return type
-
getOSV
(osvdir=None, osvType='POE', returnMatch=False, useLocal=True)[source]¶ download Orbit State Vector files for the scene
- Parameters
osvdir (str) – the directory of OSV files; subdirectories POEORB and RESORB are created automatically; if no directory is defined, the standard SNAP auxdata location is used
osvType (str or list) – the type of orbit file either ‘POE’, ‘RES’ or a list of both; if both are selected, the best matching file will be retrieved. I.e., POE if available and RES otherwise
returnMatch (bool) – return the best matching orbit file?
useLocal (bool) – use locally existing files and do not search for files online if the right file has been found?
- Returns
the best matching OSV file if returnMatch is True or None otherwise
- Return type
See also
-
quicklook
(outname, format='kmz')[source]¶ export a quick look image of the scene
- Parameters
Examples
>>> from pyroSAR import identify >>> scene = identify('S1A_IW_GRDH_1SDV_20180101T170648_20180101T170713_019964_021FFD_DA78.zip') >>> scene.quicklook('S1A__IW___A_20180101T170648.kmz')
-
removeGRDBorderNoise
(method='pyroSAR')[source]¶ mask out Sentinel-1 image border noise.
- Parameters
method (str) –
- the border noise removal method to be applied; one of the following:
’ESA’: the pure implementation as described by ESA
’pyroSAR’: the ESA method plus the custom pyroSAR refinement
See also
-
scanMetadata
()[source]¶ scan SAR scenes for metadata attributes. The returned dictionary is registered as attribute meta by the class upon object initialization. This dictionary furthermore needs to return a set of standardized attribute keys, which are directly registered as object attributes.
- Returns
the derived attributes
- Return type
-
class
pyroSAR.drivers.
TSX
(scene)[source]¶ Bases:
pyroSAR.drivers.ID
Handler class for TerraSAR-X and TanDEM-X data
- Sensors:
TSX1
TDX1
- References:
TX-GS-DD-3302 TerraSAR-X Basic Product Specification Document
TX-GS-DD-3303 TerraSAR-X Experimental Product Description
TD-GS-PS-3028 TanDEM-X Experimental Product Description
TerraSAR-X Image Product Guide (Airbus Defence and Space)
- Acquisition modes:
ST: Staring Spotlight
HS: High Resolution SpotLight
HS300: High Resolution SpotLight 300 MHz
SL: SpotLight
SM: StripMap
SC: ScanSAR
WS: Wide ScanSAR
- Polarisation modes:
Single (S): all acquisition modes
Dual (D): High Resolution SpotLight (HS), SpotLight (SL) and StripMap (SM)
Twin (T): StripMap (SM) (experimental)
Quad (Q): StripMap (SM) (experimental)
- Products:
SSC: Single Look Slant Range Complex
MGD: Multi Look Ground Range Detected
GEC: Geocoded Ellipsoid Corrected
EEC: Enhanced Ellipsoid Corrected
-
getCorners
()[source]¶ derive the corner coordinates from a SAR scene
- Returns
dictionary with keys xmin, xmax, ymin and ymax
- Return type
-
scanMetadata
()[source]¶ scan SAR scenes for metadata attributes. The returned dictionary is registered as attribute meta by the class upon object initialization. This dictionary furthermore needs to return a set of standardized attribute keys, which are directly registered as object attributes.
- Returns
the derived attributes
- Return type
-
pyroSAR.drivers.
drop_archive
(archive)[source]¶ drop (delete) a scene database
- Parameters
archive (pyroSAR.drivers.Archive) – the database to be deleted
Examples
>>> pguser = os.environ.get('PGUSER') >>> pgpassword = os.environ.get('PGPASSWORD')
>>> db = Archive('test', postgres=True, port=5432, user=pguser, password=pgpassword) >>> drop_archive(db)
-
pyroSAR.drivers.
filter_processed
(scenelist, outdir, recursive=False)[source]¶ Filter a list of pyroSAR objects to those that have not yet been processed and stored in the defined directory. The search for processed scenes is either done in the directory only or recursively into subdirectories. The scenes must have been processed with pyroSAR in order to follow the right naming scheme.
-
pyroSAR.drivers.
findfiles
(scene, pattern, include_folders=False)[source]¶ find files in a scene archive, which match a pattern
-
pyroSAR.drivers.
getFileObj
(scene, filename)[source]¶ Load a file in a SAR scene archive into a readable file object.
- Parameters
scene (str) – the scene archive. Can be either a directory or a compressed archive of type zip or tar.gz.
filename (str) – the name of a file in the scene archive, easiest to get with method
findfiles()
- Returns
a file object
- Return type
-
pyroSAR.drivers.
identify
(scene)[source]¶ identify a SAR scene and return the appropriate metadata handler object
- Parameters
scene (str) – a file or directory name
- Returns
a pyroSAR metadata handler
- Return type
a subclass object of
ID
Examples
>>> from pyroSAR import identify >>> filename = 'S1A_IW_GRDH_1SDV_20180829T170656_20180829T170721_023464_028DE0_F7BD.zip' >>> scene = identify(filename) >>> print(scene) pyroSAR ID object of type SAFE acquisition_mode: IW cycleNumber: 148 frameNumber: 167392 lines: 16703 orbit: A orbitNumber_abs: 23464 orbitNumber_rel: 117 polarizations: ['VV', 'VH'] product: GRD projection: +proj=longlat +datum=WGS84 +no_defs samples: 26056 sensor: S1A spacing: (10.0, 10.0) start: 20180829T170656 stop: 20180829T170721
-
pyroSAR.drivers.
identify_many
(scenes, verbose=True, sortkey=None)[source]¶ wrapper function for returning metadata handlers of all valid scenes in a list, similar to function
identify()
. Prints a progressbar.- Parameters
- Returns
a list of pyroSAR metadata handlers
- Return type
Examples
>>> from pyroSAR import identify_many >>> files = finder('/path', ['S1*.zip']) >>> ids = identify_many(files, verbose=False, sortkey='start')
SNAP Processing¶
-
pyroSAR.snap.util.
geocode
(infile, outdir, t_srs=4326, tr=20, polarizations='all', shapefile=None, scaling='dB', geocoding_type='Range-Doppler', removeS1BorderNoise=True, removeS1BorderNoiseMethod='pyroSAR', removeS1ThermalNoise=True, offset=None, allow_RES_OSV=False, demName='SRTM 1Sec HGT', externalDEMFile=None, externalDEMNoDataValue=None, externalDEMApplyEGM=True, terrainFlattening=True, basename_extensions=None, test=False, export_extra=None, groupsize=1, cleanup=True, tmpdir=None, gpt_exceptions=None, gpt_args=None, returnWF=False, nodataValueAtSea=True, demResamplingMethod='BILINEAR_INTERPOLATION', imgResamplingMethod='BILINEAR_INTERPOLATION', alignToStandardGrid=False, standardGridOriginX=0, standardGridOriginY=0, speckleFilter=False, refarea='gamma0')[source]¶ wrapper function for geocoding SAR images using ESA SNAP
- Parameters
infile (str or ID or list) – the SAR scene(s) to be processed; multiple scenes are treated as consecutive acquisitions, which will be mosaicked with SNAP’s SliceAssembly operator
outdir (str) – The directory to write the final files to.
t_srs (int, str or osr.SpatialReference) – A target geographic reference system in WKT, EPSG, PROJ4 or OPENGIS format. See function
spatialist.auxil.crsConvert()
for details. Default: 4326.tr (int or float, optional) – The target resolution in meters. Default is 20
polarizations (list or str) – The polarizations to be processed; can be a string for a single polarization, e.g. ‘VV’, or a list of several polarizations, e.g. [‘VV’, ‘VH’]. With the special value ‘all’ (default) all available polarizations are processed.
shapefile (str or
Vector
or dict or None) – A vector geometry for subsetting the SAR scene to a test site.scaling ({'dB', 'db', 'linear'}, optional) – Should the output be in linear or decibel scaling? Default is ‘dB’.
geocoding_type ({'Range-Doppler', 'SAR simulation cross correlation'}, optional) – The type of geocoding applied; can be either ‘Range-Doppler’ (default) or ‘SAR simulation cross correlation’
removeS1BorderNoise (bool, optional) – Enables removal of S1 GRD border noise (default).
removeS1BorderNoiseMethod (str) –
- the border noise removal method to be applied, See
pyroSAR.S1.removeGRDBorderNoise()
for details; one of the following: ’ESA’: the pure implementation as described by ESA
’pyroSAR’: the ESA method plus the custom pyroSAR refinement
- the border noise removal method to be applied, See
removeS1ThermalNoise (bool, optional) – Enables removal of S1 thermal noise (default).
offset (tuple, optional) – A tuple defining offsets for left, right, top and bottom in pixels, e.g. (100, 100, 0, 0); this variable is overridden if a shapefile is defined. Default is None.
allow_RES_OSV (bool) – (only applies to Sentinel-1) Also allow the less accurate RES orbit files to be used? The function first tries to download a POE file for the scene. If this fails and RES files are allowed, it will download the RES file. The selected OSV type is written to the workflow XML file. Processing is aborted if the correction fails (Apply-Orbit-File parameter continueOnFail set to false).
demName (str) – the name of the auto-download DEM. Default is ‘SRTM 1Sec HGT’. Is ignored when externalDEMFile is not None.
externalDEMFile (str or None, optional) – The absolute path to an external DEM file. Default is None. Overrides demName.
externalDEMNoDataValue (int, float or None, optional) – The no data value of the external DEM. If not specified (default) the function will try to read it from the specified external DEM.
externalDEMApplyEGM (bool, optional) – Apply Earth Gravitational Model to external DEM? Default is True.
terrainFlattening (bool) – apply topographic normalization on the data?
basename_extensions (list of str or None) – names of additional parameters to append to the basename, e.g. [‘orbitNumber_rel’]
test (bool, optional) – If set to True the workflow xml file is only written and not executed. Default is False.
- a list of image file IDs to be exported to outdir. The following IDs are currently supported:
incidenceAngleFromEllipsoid
localIncidenceAngle
projectedLocalIncidenceAngle
DEM
groupsize (int) – the number of workers executed together in one gpt call
cleanup (bool) – should all files written to the temporary directory during function execution be deleted after processing?
tmpdir (str or None) – path of custom temporary directory, useful to separate output folder and temp folder. If None, the outdir location will be used. The created subdirectory will be deleted after processing.
gpt_exceptions (dict or None) –
a dictionary to override the configured GPT executable for certain operators; each (sub-)workflow containing this operator will be executed with the define executable;
e.g.
{'Terrain-Flattening': '/home/user/snap/bin/gpt'}
a list of additional arguments to be passed to the gpt call
e.g.
['-x', '-c', '2048M']
for increased tile cache size and intermediate clearing
returnWF (bool) – return the full name of the written workflow XML file?
nodataValueAtSea (bool) – mask pixels acquired over sea? The sea mask depends on the selected DEM.
demResamplingMethod (str) –
- one of the following:
’NEAREST_NEIGHBOUR’
’BILINEAR_INTERPOLATION’
’CUBIC_CONVOLUTION’
’BISINC_5_POINT_INTERPOLATION’
’BISINC_11_POINT_INTERPOLATION’
’BISINC_21_POINT_INTERPOLATION’
’BICUBIC_INTERPOLATION’
imgResamplingMethod (str) – the resampling method for geocoding the SAR image; the options are identical to demResamplingMethod
speckleFilter (str) –
- one of the following:
’Boxcar’
’Median’
’Frost’
’Gamma Map’
’Refined Lee’
’Lee’
’Lee Sigma’
refarea (str) –
- one of the following:
’beta0’
’gamma0’
’sigma0’
alignToStandardGrid (bool) – align all processed images to a common grid?
standardGridOriginX (int or float) – the x origin value for grid alignment
standardGridOriginY (int or float) – the y origin value for grid alignment
- Returns
either the name of the workflow file if returnWF == True or None otherwise
- Return type
Note
If only one polarization is selected and not extra products are defined the results are directly written to GeoTiff. Otherwise the results are first written to a folder containing ENVI files and then transformed to GeoTiff files (one for each polarization/extra product). If GeoTiff would directly be selected as output format for multiple polarizations then a multilayer GeoTiff is written by SNAP which is considered an unfavorable format
Examples
geocode a Sentinel-1 scene and export the local incidence angle map with it
>>> from pyroSAR.snap import geocode >>> filename = 'S1A_IW_GRDH_1SDV_20180829T170656_20180829T170721_023464_028DE0_F7BD.zip' >>> geocode(infile=filename, outdir='outdir', tr=20, scaling='dB', >>> export_extra=['DEM', 'localIncidenceAngle'], t_srs=4326)
Workflow Parsing¶
wrapper for ESA SNAP’s Graph Processing Tool GPT. |
|
parse an XML node recipe. |
|
parse a SNAP recipe |
|
split a workflow file into groups and write them to separate workflows including source and write target linking. |
|
split SNAP workflow into groups containing a maximum defined number of operators |
|
Class for convenient handling of SNAP XML workflows |
|
class for handling of SNAP workflow processing nodes |
|
class for handling processing node parameters |
|
If not found, download SNAP’s lookup table for converting EGM96 geoid heights to WGS84 ellipsoid heights |
-
class
pyroSAR.snap.auxil.
Node
(element)[source]¶ Bases:
object
class for handling of SNAP workflow processing nodes
- Parameters
element (Element) – the node XML element
-
class
pyroSAR.snap.auxil.
Par
(element)[source]¶ Bases:
object
class for handling processing node parameters
- Parameters
element (Element) – the node parameter XML element
-
items
()[source]¶ - Returns
the parameters as (key, value) as from
dict.items()
- Return type
-
keys
()[source]¶ - Returns
the parameter names as from
dict.keys()
- Return type
-
values
()[source]¶ - Returns
the parameter values as from
dict.values()
- Return type
-
class
pyroSAR.snap.auxil.
Workflow
(xmlfile)[source]¶ Bases:
object
Class for convenient handling of SNAP XML workflows
- Parameters
xmlfile (str) – the workflow XML file
-
insert_node
(node, before=None, after=None, resetSuccessorSource=True, void=True)[source]¶ insert a node into the workflow including setting its source to its predecessor and setting its ID as source of the successor.
- Parameters
node (Node) – the node to be inserted
before (str or list) – the ID(s) of the node(s) before the newly inserted node; a list of node IDs is intended for nodes that require multiple sources, e.g. sliceAssembly
after (str) – the ID of the node after the newly inserted node
resetSuccessorSource (bool) – reset the source of the successor node to the ID of the newly inserted node?
void (bool) – if false, the function returns the node
- Returns
the new node or None, depending on arguement void
- Return type
-
set_par
(key, value)[source]¶ set a parameter for all nodes in the workflow
- Parameters
key (str) – the parameter name
value –
-
property
suffix
¶ - Returns
a file suffix created from the order of which the nodes will be executed
- Return type
-
pyroSAR.snap.auxil.
get_egm96_lookup
()[source]¶ If not found, download SNAP’s lookup table for converting EGM96 geoid heights to WGS84 ellipsoid heights
-
pyroSAR.snap.auxil.
gpt
(xmlfile, groups=None, cleanup=True, gpt_exceptions=None, gpt_args=None, removeS1BorderNoiseMethod='pyroSAR', basename_extensions=None, tmpdir=None)[source]¶ wrapper for ESA SNAP’s Graph Processing Tool GPT. Input is a readily formatted workflow XML file as created by function
geocode()
. Additional to calling GPT, this function willexecute the workflow in groups as defined by groups
encode a nodata value into the output file if the format is GeoTiff-BigTIFF
convert output files to GeoTiff if the output format is ENVI
- Parameters
xmlfile (str) – the name of the workflow XML file
groups (list) – a list of lists each containing IDs for individual nodes
cleanup (bool) – should all files written to the temporary directory during function execution be deleted after processing?
gpt_exceptions (dict) –
a dictionary to override the configured GPT executable for certain operators; each (sub-)workflow containing this operator will be executed with the define executable;
e.g.
{'Terrain-Flattening': '/home/user/snap/bin/gpt'}
a list of additional arguments to be passed to the gpt call
e.g.
['-x', '-c', '2048M']
for increased tile cache size and intermediate clearing
removeS1BorderNoiseMethod (str) –
- the border noise removal method to be applied, See
pyroSAR.S1.removeGRDBorderNoise()
for details; one of the following: ’ESA’: the pure implementation as described by ESA
’pyroSAR’: the ESA method plus the custom pyroSAR refinement
- the border noise removal method to be applied, See
basename_extensions (list of str) – names of additional parameters to append to the basename, e.g. [‘orbitNumber_rel’]
- Raises
-
pyroSAR.snap.auxil.
groupbyWorkers
(xmlfile, n=2)[source]¶ split SNAP workflow into groups containing a maximum defined number of operators
- Parameters
- Returns
a list of lists each containing the IDs of all nodes belonging to the groups including Read and Write nodes; this list can e.g. be passed to function
split()
to split the workflow into new sub-workflow files based on the newly created groups or directly to functiongpt()
, which will callsplit()
internally.- Return type
-
pyroSAR.snap.auxil.
parse_node
(name, use_existing=True)[source]¶ parse an XML node recipe. The XML representation and parameter default values are read from the docstring of an individual node by calling gpt <node> -h. The result is then written to an XML text file under $HOME/.pyroSAR/snap/nodes which is subsequently read for parsing instead of again calling gpt.
- Parameters
- Returns
the parsed node
- Return type
Examples
>>> tnr = parse_node('ThermalNoiseRemoval') >>> print(tnr.parameters) {'selectedPolarisations': None, 'removeThermalNoise': 'true', 'reIntroduceThermalNoise': 'false'}
-
pyroSAR.snap.auxil.
parse_recipe
(name)[source]¶ parse a SNAP recipe
- Parameters
name (str) –
- the name of the recipe; current options:
blank: a workflow without any nodes
geocode: a basic workflow containing Read, Apply-Orbit-File, Calibration, Terrain-Flattening and Write nodes
- Returns
the parsed recipe
- Return type
Examples
>>> from pyroSAR.snap.auxil import parse_recipe >>> workflow = parse_recipe('base')
-
pyroSAR.snap.auxil.
split
(xmlfile, groups, tmpdir=None)[source]¶ split a workflow file into groups and write them to separate workflows including source and write target linking. The new workflows are written to a sub-directory temp of the target directory defined in the input’s Write node. Each new workflow is parameterized with a Read and Write node if they don’t already exist. Temporary outputs are written to BEAM-DIMAP files named after the workflow suffix sequence.
- Parameters
- Returns
the names of the newly written temporary workflows
- Return type
list of str
- Raises
GAMMA Processing¶
general function for converting SAR images to GAMMA format |
|
correct GAMMA parameter files with orbit state vector information from dedicated OSV files; OSV files are downloaded automatically to either the defined osvdir or a sub-directory osv of the scene directory |
|
general function for geocoding SAR images with GAMMA |
|
Reader for ISP parameter files of the GAMMA software package |
|
multilooking of SLC and MLI images |
|
compute DEM oversampling factors for a target resolution in meters |
|
Create an ENVI HDR file from a Gamma PAR file |
|
wrapper function to execute GAMMA commands via module |
|
Debursting of Sentinel-1 SLC imagery in GAMMA |
|
convert a gamma parameter file corner coordinate from EQA to UTM |
-
class
pyroSAR.gamma.
ISPPar
(filename)[source]¶ Bases:
object
Reader for ISP parameter files of the GAMMA software package
This class allows to read all information from files in GAMMA’s parameter file format. Each key-value pair is parsed and added as attribute. For instance if the parameter file contains the pair ‘sensor: TSX-1’ an attribute named ‘sensor’ with the value ‘TSX-1’ will be available.
The values are converted to native Python types, while unit identifiers like ‘dB’ or ‘Hz’ are removed. Please see the GAMMA reference manual for further information on the actual file format.
- Parameters
filename (str) – the Gamma parameter file
Examples
>>> from pyroSAR.gamma import ISPPar >>> with ISPPar('S1A__IW___A_20141115T181801_VH_grd.par') as par: ... print(par) # print an overview of all available metadata ... print(par.keys) # print all parameter names ... for key, value in par.envidict().items(): ... print('{0}: {1}'.format(key, value)) # print the ENVI HDR compliant metadata
-
pyroSAR.gamma.
S1_deburst
(burst1, burst2, burst3, name_out, rlks=5, azlks=1, replace=False, logpath=None, outdir=None, shellscript=None)[source]¶ Debursting of Sentinel-1 SLC imagery in GAMMA
The procedure consists of two steps. First antenna pattern deramping and then mosaicing of the single deramped bursts. For mosaicing, the burst boundaries are calculated from the number of looks in range (rlks) and azimuth (azlks), in this case 5 range looks and 1 azimuth looks. Alternately 10 range looks and 2 azimuth looks could be used.
- Parameters
burst1 (str) – burst image 1
burst2 (str) – burst image 2
burst3 (str) – burst image 3
name_out (str) – the name of the output file
rlks (int) – the number of looks in range
azlks (int) – the number of looks in azimuth
replace (bool) – replace the burst images by the new file? If True, the three burst images will be deleted.
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
class
pyroSAR.gamma.
UTM
(parfile)[source]¶ Bases:
object
convert a gamma parameter file corner coordinate from EQA to UTM
- Parameters
parfile (str) – the Gamma parameter file to read the coordinate from
Example
>>> from pyroSAR.gamma import UTM >>> print(UTM('gamma.par').zone)
-
pyroSAR.gamma.
convert2gamma
(id, directory, S1_tnr=True, S1_bnr=True, basename_extensions=None, logpath=None, outdir=None, shellscript=None)[source]¶ general function for converting SAR images to GAMMA format
- Parameters
id (ID) – an SAR scene object of type pyroSAR.ID or any subclass
directory (str) – the output directory for the converted images
S1_tnr (bool) – only Sentinel-1: should thermal noise removal be applied to the image?
S1_bnr (bool) – only Sentinel-1 GRD: should border noise removal be applied to the image? This is available since version 20191203, for older versions this argument is ignored.
basename_extensions (list of str) – names of additional parameters to append to the basename, e.g. [‘orbitNumber_rel’]
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.
correctOSV
(id, osvdir=None, osvType='POE', logpath=None, outdir=None, shellscript=None)[source]¶ correct GAMMA parameter files with orbit state vector information from dedicated OSV files; OSV files are downloaded automatically to either the defined osvdir or a sub-directory osv of the scene directory
- Parameters
id (ID) – the scene to be corrected
osvdir (str) – the directory of OSV files; subdirectories POEORB and RESORB are created automatically
osvType ({'POE', 'RES'}) – the OSV type to be used
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
Examples
>>> from pyroSAR import identify >>> from pyroSAR.gamma import correctOSV, convert2gamma >>> filename = 'S1A_IW_GRDH_1SDV_20150222T170750_20150222T170815_004739_005DD8_3768.zip' # identify the SAR scene >>> scene = identify(filename) # unpack the zipped scene to an arbitrary directory >>> scene.unpack('/home/test') >>> print(scene.scene) /home/test/S1A_IW_GRDH_1SDV_20150222T170750_20150222T170815_004739_005DD8_3768.SAFE # convert the unpacked scene to GAMMA format >>> convert2gamma(id=scene, directory=scene.scene) # correct the OSV information of the converted GAMMA images >>> correctOSV(id=scene, osvdir='/home/test/osv')
See also
-
pyroSAR.gamma.
geocode
(scene, dem, tmpdir, outdir, targetres, scaling='linear', func_geoback=1, func_interp=2, nodata=(0, - 99), sarSimCC=False, osvdir=None, allow_RES_OSV=False, cleanup=True, normalization_method=2, export_extra=None, basename_extensions=None, removeS1BorderNoise=True, removeS1BorderNoiseMethod='gamma')[source]¶ general function for geocoding SAR images with GAMMA
- Parameters
dem (str) – the reference DEM in GAMMA format
tmpdir (str) – a temporary directory for writing intermediate files
outdir (str) – the directory for the final GeoTiff output files
targetres (int) – the target resolution in meters
scaling ({'linear', 'db'} or list) – the value scaling of the backscatter values; either ‘linear’, ‘db’ or a list of both, i.e. [‘linear’, ‘db’]
func_geoback ({0, 1, 2, 3, 4, 5, 6, 7}) –
- backward geocoding interpolation mode (see GAMMA command geocode_back)
0: nearest-neighbor
1: bicubic spline (default)
2: bicubic-spline, interpolate log(data)
3: bicubic-spline, interpolate sqrt(data)
4: B-spline interpolation (default B-spline degree: 5)
5: B-spline interpolation sqrt(x) (default B-spline degree: 5)
6: Lanczos interpolation (default Lanczos function order: 5)
7: Lanczos interpolation sqrt(x) (default Lanczos function order: 5)
NOTE: log and sqrt interpolation modes should only be used with non-negative data!
NOTE: Gamma reccomendation for MLI data: “The interpolation should be performed on the square root of the data. A mid-order (3 to 5) B-spline interpolation is recommended.”
func_interp ({0, 1, 2, 3}) –
- output lookup table values in regions of layover, shadow, or DEM gaps (see GAMMA command gc_map)
0: set to (0., 0.)
1: linear interpolation across these regions
2: actual value
3: nn-thinned
nodata (tuple) – the nodata values for the output files; defined as a tuple with two values, the first for linear, the second for logarithmic scaling
sarSimCC (bool) – perform geocoding with SAR simulation cross correlation? If False, geocoding is performed with the Range-Doppler approach using orbit state vectors
osvdir (str) – a directory for Orbit State Vector files; this is currently only used by for Sentinel-1 where two subdirectories POEORB and RESORB are created; if set to None, a subdirectory OSV is created in the directory of the unpacked scene.
allow_RES_OSV (bool) – also allow the less accurate RES orbit files to be used? Otherwise the function will raise an error if no POE file exists
cleanup (bool) – should all files written to the temporary directory during function execution be deleted after processing?
normalization_method ({1, 2}) –
- the topographic normalization approach to be used
1: first geocoding, then terrain flattening
2: first terrain flattening, then geocoding; see [2]
export_extra (list of str or None) –
- a list of image file IDs to be exported to outdir
format is GeoTiff if the file is geocoded and ENVI otherwise. Non-geocoded images can be converted via Gamma command data2tiff yet the output was found impossible to read with GIS software
scaling of SAR image products is applied as defined by parameter scaling
see Notes for ID options
basename_extensions (list of str or None) – names of additional parameters to append to the basename, e.g. [‘orbitNumber_rel’]
removeS1BorderNoise (bool) – Enables removal of S1 GRD border noise (default).
removeS1BorderNoiseMethod (str) –
- the border noise removal method to be applied, See
pyroSAR.S1.removeGRDBorderNoise()
for details; one of the following: ’ESA’: the pure implementation as described by ESA
’pyroSAR’: the ESA method plus the custom pyroSAR refinement
’gamma’: the GAMMA implementation of [1]
- the border noise removal method to be applied, See
Note
intermediate output filesDEM products are named <scene identifier>_<ID>, e.g. S1A__IW___A_20141012T162337_inc_geoSAR products will additionally contain the polarization, e.g. S1A__IW___A_20141012T162337_VV_grd_mliIDs in brackets are only written if selected by export_extraimages in range-Doppler geometry
grd: the ground range detected SAR intensity image
grd_mli: the multi-looked grd image with approached target resolution
specific to normalization method 2:
pix_ellip_sigma0: ellipsoid-based pixel area
pix_area_sigma0: actual illuminated area as obtained from integrating DEM-facets (command pixel_area)
pix_fine: refined pixel area normalization factor (pix_ellip_sigma0 / pix_area_sigma0)
grd_mli_pan: the pixel area normalized MLI (grd_mli * pix_fine)
images in map geometry
dem_seg_geo: dem subsetted to the extent of the intersect between input DEM and SAR image
(u_geo): zenith angle of surface normal vector n (angle between z and n)
(v_geo): orientation angle of n (between x and projection of n in xy plane)
inc_geo: local incidence angle (between surface normal and look vector)
(psi_geo): projection angle (between surface normal and image plane normal)
pix_geo: pixel area normalization factor (command gc_map)
ls_map_geo: layover and shadow map (in map projection)
(sim_sar_geo): simulated SAR backscatter image
additional files
lut_init: initial geocoding lookup table
files specific to SAR simulation cross-correlation geocoding
lut_fine: refined geocoding lookup table
diffpar: ISP offset/interferogram parameter file
offs: offset estimates (fcomplex)
coffs: culled range and azimuth offset estimates (fcomplex)
coffsets: culled offset estimates and cross correlation values (text format)
ccp: cross-correlation of each patch (0.0->1.0) (float)
Examples
geocode a Sentinel-1 scene and export the local incidence angle map with it
>>> from pyroSAR.gamma import geocode >>> filename = 'S1A_IW_GRDH_1SDV_20180829T170656_20180829T170721_023464_028DE0_F7BD.zip' >>> geocode(scene=filename, dem='demfile', outdir='outdir', targetres=20, scaling='db', >>> export_extra=['dem_seg_geo', 'inc_geo', 'ls_map_geo'])
References
- 1
I. Ali, S. Cao, V. Naeimi, C. Paulik, and W. Wagner. Methods to remove the border noise from sentinel-1 synthetic aperture radar data: implications and importance for time-series analysis. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 11(3):777–786, 2018. doi:10.1109/Jstars.2017.2787650.
- 2
D. Small. Flattening gamma: radiometric terrain correction for sar imagery. IEEE Transactions on Geoscience and Remote Sensing, 49(8):3081–3093, 2011. doi:10.1109/Tgrs.2011.2120616.
-
pyroSAR.gamma.
multilook
(infile, outfile, targetres, logpath=None, outdir=None, shellscript=None)[source]¶ multilooking of SLC and MLI images
if the image is in slant range the ground range resolution is computed by dividing the range pixel spacing by the sine of the incidence angle
the looks in range and azimuth are chosen to approximate the target resolution by rounding the ratio between target resolution and ground range/azimuth pixel spacing to the nearest integer
an ENVI HDR parameter file is automatically written for better handling in other software
- Parameters
infile (str) – a SAR image in GAMMA format with a parameter file of name <infile>.par
outfile (str) – the name of the output GAMMA file
targetres (int) – the target resolution in ground range
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.
ovs
(parfile, targetres)[source]¶ compute DEM oversampling factors for a target resolution in meters
-
pyroSAR.gamma.
par2hdr
(parfile, hdrfile, modifications=None, nodata=None)[source]¶ Create an ENVI HDR file from a Gamma PAR file
- Parameters
Examples
>>> from pyroSAR.gamma.auxil import par2hdr >>> par2hdr('dem_seg.par', 'inc.hdr') # write a HDR file for byte data based on a parfile of float data >>> par2hdr('dem_seg.par', 'ls_map.hdr', modifications={'data_type': 1})
-
pyroSAR.gamma.
process
(cmd, outdir=None, logfile=None, logpath=None, inlist=None, void=True, shellscript=None)[source]¶ wrapper function to execute GAMMA commands via module
subprocess
- Parameters
cmd (list) – the command line arguments
outdir (str) – the directory to execute the command in
logfile (str) – a file to write the command log to; overrides parameter logpath
logpath (str) – a directory to write logfiles to; the file will be named {GAMMA command}.log, e.g. gc_map.log; is overridden by parameter logfile
inlist (list) – a list of values, which is passed as interactive inputs via stdin
void (bool) – return the stdout and stderr messages?
shellscript (str) – a file to write the Gamma commands to in shell format
- Returns
the stdout and stderr messages if void is False, otherwise None
- Return type
tuple of str or None
DEM tools¶
A collection of functions to handle digital elevation models in Gamma
automatically create a DEM in Gamma format for a defined spatial geometry
|
|
create GAMMA parameter text files for DEM files |
|
interpolate missing values in the SRTM DEM (value -32768) |
|
concatenate hgt file names overlapping with multiple SAR scenes |
|
automatic downloading and unpacking of srtm tiles |
|
Create a DEM in Gamma format from SRTM tiles |
|
mosaicing of multiple DEMs |
|
byte swapping from small to big endian (as required by GAMMA) |
-
pyroSAR.gamma.dem.
dem_autocreate
(geometry, demType, outfile, buffer=0.01, t_srs=4326, tr=None, logpath=None, username=None, password=None, geoid_mode='gamma', resampling_method='bilinear')[source]¶ - automatically create a DEM in Gamma format for a defined spatial geometrythe following steps will be performed:
collect all tiles overlapping with the geometry
if they don’t yet exist locally they will automatically be downloaded
the tiles will be downloaded into the SNAP auxdata directory structure, e.g.
$HOME/.snap/auxdata/dem/SRTM 3Sec
create a mosaic GeoTiff of the same spatial extent as the input geometry plus a defined buffer using
gdalwarp
subtract the EGM96-WGS84 Geoid-Ellipsoid difference and convert the result to Gamma format using Gamma command
srtm2dem
this correction is not done for TanDEM-X data, which contains ellipsoid heights; see here
if the command
create_dem_par
accepts a parameter EPSG and the commanddem_import
exists (depending on the GAMMA version used), an arbitrary CRS can be defined via parametert_srs
. In this case, and if parametert_srs
is not kept at its default of 4326, conversion to Gamma format is done with commanddem_import
instead ofsrtm2dem
- Parameters
geometry (spatialist.vector.Vector) – a vector geometry delimiting the output DEM size; CRS must be WGS84 LatLon (EPSG 4326)
demType (str) – the type of DEM to be used; see
dem_autoload()
for optionsoutfile (str) – the name of the final DEM file
buffer (float) – a buffer in degrees to create around the geometry
t_srs (int, str or osr.SpatialReference) –
A target geographic reference system in WKT, EPSG, PROJ4 or OPENGIS format. See function
spatialist.auxil.crsConvert()
for details. Default: 4326.tr (tuple or None) – the target resolution as (xres, yres) in units of
t_srs
; ift_srs
is kept at its default value of 4326,tr
does not need to be defined and the original resolution is preserved; in all other cases the default of None is rejectedlogpath (str) – a directory to write Gamma logfiles to
username (str or None) – (optional) the user name for services requiring registration; see
dem_autoload()
password (str or None) – (optional) the password for the registration account
geoid_mode (str) –
- the software to be used for converting geoid to ellipsoid heights; does not apply to demType TDX90m; options:
’gamma’
’gdal’
resampling_method (str) –
the gdalwarp resampling method; See here for options.
-
pyroSAR.gamma.dem.
dempar
(dem, logpath=None)[source]¶ create GAMMA parameter text files for DEM files
currently only EQA and UTM projections with WGS84 ellipsoid are supported
-
pyroSAR.gamma.dem.
fill
(dem, dem_out, logpath=None, replace=False)[source]¶ interpolate missing values in the SRTM DEM (value -32768)
-
pyroSAR.gamma.dem.
hgt
(parfiles)[source]¶ concatenate hgt file names overlapping with multiple SAR scenes
this list is read for corner coordinates of which the next integer lower left latitude and longitude is computed
hgt files are supplied in 1 degree equiangular format named e.g. N16W094.hgt (with pattern [NS][0-9]{2}[EW][0-9]{3}.hgt
For north and east hemisphere the respective absolute latitude and longitude values are smaller than the lower left coordinate of the SAR image
west and south coordinates are negative and hence the nearest lower left integer absolute value is going to be larger
- Parameters
parfiles (list of str or pyroSAR.ID) – a list of Gamma parameter files or pyroSAR ID objects
- Returns
the names of hgt files overlapping with the supplied parameter files/objects
- Return type
-
pyroSAR.gamma.dem.
hgt_collect
(parfiles, outdir, demdir=None, arcsec=3)[source]¶ automatic downloading and unpacking of srtm tiles
- Parameters
- Returns
the names of all local hgt tiles overlapping with the parfiles
- Return type
-
pyroSAR.gamma.dem.
makeSRTM
(scenes, srtmdir, outname)[source]¶ Create a DEM in Gamma format from SRTM tiles
coordinates are read to determine the required DEM extent and select the necessary hgt tiles
mosaics SRTM DEM tiles, converts them to Gamma format and subtracts offset to WGS84 ellipsoid
intended for SRTM products downloaded from:
CGIAR: http://srtm.csi.cgiar.org
GAMMA Command API¶
This is an attempt to make it easier to execute Gamma commands by offering automatically parsed Python functions. Thus, instead of executing the command via shell:
offset_fit offs ccp off.par coffs - 0.15 3 0 > offset_fit.log
one can wrap it in a Python script:
import os
from pyroSAR.gamma.api import isp
workdir = '/data/gamma_workdir'
parameters = {'offs': os.path.join(workdir, 'offs'),
'ccp': os.path.join(workdir, 'ccp'),
'OFF_par': os.path.join(workdir, 'off.par'),
'coffs': os.path.join(workdir, 'coffs'),
'thres': 0.15,
'npoly': 3,
'interact_flag': 0,
'logpath': workdir}
isp.offset_fit(**parameters)
A file offset_fit.log containing the output of the command is written in both cases. Any parameters, which should not be written and need to be set to - in the shell can be omitted in the Python call since all optional parameters of the functions are already defined with ‘-‘ as a default. The documentation can be called like with any Python function:
from pyroSAR.gamma.api import isp
help(isp.offset_fit)
Parser Documentation¶
-
pyroSAR.gamma.parser.
autoparse
()[source]¶ automatic parsing of Gamma commands. This function will detect the Gamma installation via environment variable GAMMA_HOME, detect all available modules (e.g. ISP, DIFF) and parse all of the module’s commands via function
parse_module()
. A new Python module will be created called gammaparse, which is stored under $HOME/.pyrosar. Upon importing the pyroSAR.gamma submodule, this function is run automatically and module gammaparse is imported as api.Examples
>>> from pyroSAR.gamma.api import diff >>> print('create_dem_par' in dir(diff)) True
-
pyroSAR.gamma.parser.
parse_command
(command, indent=' ')[source]¶ Parse the help text of a Gamma command to a Python function including a docstring. The docstring is in rst format and can thu be parsed by e.g. sphinx. This function is not intended to be used by itself, but rather within function
parse_module()
.
-
pyroSAR.gamma.parser.
parse_module
(bindir, outfile)[source]¶ parse all Gamma commands of a module to functions and save them to a Python script.
- Parameters
Examples
>>> import os >>> from pyroSAR.gamma.parser import parse_module >>> outname = os.path.join(os.environ['HOME'], 'isp.py') >>> parse_module('/cluster/GAMMA_SOFTWARE-20161207/ISP/bin', outname)
API Demo¶
This is a demonstration of an output script as generated automatically by function
parse_module()
for the Gamma module ISP.
Within each function, the command name and all parameters are passed to function
process()
, which converts all input to str
and then calls the command via the
subprocess
module.
-
pyroSAR.gamma.parser_demo.
ASAR_LO_phase_drift
(SLC1_par, SLC2_par, OFF_par, ph_drift, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate interferometric phase correction due to drift of the ASAR local oscillatorCopyright 2015, Gamma Remote Sensing, v1.1 3-Dec-2015 clw
- Parameters
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
ph_drift – (output) interferometric phase correction due to drift of the ASAR LO (radians)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ASAR_XCA
(ASA_XCA, antenna, swath='-', pol='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Interpretation of ASAR external calibration data file (ASA_XCA)Copyright 2006, Gamma Remote Sensing, v1.1 7-June-2006 awi/uw/clw
- Parameters
ASA_XCA – (input) ASAR external calibration data file (binary)
antenna –
- (output) 1-way antenna gain pattern file or ‘-‘ (if not provided)
or ‘all’ to generate all ASAR antenna diagrams
swath – ASAR swath (IS1,IS2,…IS7;SS1,SS2,…SS5)
pol – polarization (HH,VV,HV,VH)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
DELFT_vec2
(SLC_par, DELFT_dir, nstate='-', interval='-', ODR='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract and interpolate DELFT ERS-1, ERS-2, and ENVISAT state vectorsCopyright 2012, Gamma Remote Sensing, v2.6 clw 24-Oct-2012
- Parameters
SLC_par – (input) ISP image parameter file
DELFT_dir –
- directory containing Delft orbit arclist and ODR files for ERS-1, ERS-2 or ENVISAT
NOTE: enter . for current directory
nstate – number of state vectors to generate (enter - for default (>= 15)
interval – time interval between state vectors in the ISP image parameter file (s) (default: 10.0)
ODR – ODR file to use (include path) rather than ODR file determined from the Delft orbit arclist
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
DORIS_vec
(SLC_par, DOR, nstate='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract ENVISAT DORIS state vectors and write to an ISP image parameter fileCopyright 2008, Gamma Remote Sensing, v1.4 11-Jun-2008 clw
- Parameters
SLC_par – (input/output)ISP SLC/MLI image parameter file
DOR – (input) ASAR DORIS data file (DOR_VOR_AXVF)
nstate – number of state vectors to extract (enter - for default: 11)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ERS_ASF_SLC
(orbit, device, logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
orbit – orbit identifier (example: orbit number)
device – EXABYTE tape device (no rewind); example: /dev/rmt/0mn
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ERS_ESA_PRI
(orbit, device, logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
orbit – orbit identifier (example: orbit number)
device – EXABYTE tape device (no rewind); example: /dev/rmt/0mn
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ERS_ESA_SLC
(orbit, device, logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
orbit – orbit identifier (example: orbit number)
device – EXABYTE tape device (no rewind); example: /dev/rmt/0mn
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
GRD_to_SR
(GRD_par, MLI_par, OFF_par, in_file, out_file, rlks='-', azlks='-', interp_mode='-', sr_rsp='-', sr_azsp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Conversion to slant range for ISP MLI and INSAR ground range data of type floatCopyright 2014, Gamma Remote Sensing, v2.0 4-Apr-2014 uw/clw
- Parameters
GRD_par – (input) SLC parameter file of output ground range image
MLI_par –
- (output) MLI ISP image parameter file for slant range image (float)
NOTE: delete an existing MLI parameter file to recalculate the output MLI parameters
OFF_par – (input) ISP offset/interferogram parameter file of input image (enter - image in MLI geometry)
in_file – (input) ground range image (float)
out_file – (output) slant range image (float)
rlks – multi-looking in range (prior to resampling, default=1)
azlks – multi-looking in azimuth (prior to resampling, default=1)
interp_mode –
- interpolation mode
0: nearest neighbor (default)
1: spline
2: spline log
sr_rsp – output image slant range sample spacing (m) (default = c/(2*adc_sampling_rate)
sr_azsp – output image azimunt sample spacing (m) (default = (input image azimuth spacing) * azlks)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
INTF_SLC
(pass1, pass2, rlks, azlks, algorithm='-', cc_win='-', r_pos='-', az_pos='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
pass1 – pass 1 identifier (example: pass number) reference
pass2 – pass 2 identifier (example: pass number)
rlks – number of range looks
azlks – number of azimuth looks
algorithm –
- algorithm used to determine offsets:
1=intensity image cross correlation (default) 2=fringe visibility
cc_win – window used for estimation of the correlation coefficient (default=3)
r_pos – range position of center of image patch for initial offset
az_pos – azimuth position of center of image patch for initial offset
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
MLI_cat
(MLI_1, MLI_2, MLI1_par, MLI2_par, MLI_3, MLI3_par, logpath=None, outdir=None, shellscript=None)[source]¶ - Concatenate two MLI images using bicubic spline interpolationCopyright 2015, Gamma Remote Sensing, v1.0 23-Jul-2015 awi
- Parameters
MLI_1 – (input) MLI-1 image (single-look)
MLI_2 – (input) MLI-2 image to be appended to MLI-1
MLI1_par – (input) MLI-1 ISP image parameter file
MLI2_par – (input) MLI-2 ISP image parameter file
MLI_3 – (output) concatenated MLI image
MLI3_par – (output) ISP image parameter file for concatenated image
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
MLI_copy
(MLI_in, MLI_in_par, MLI_out, MLI_out_par, roff='-', nr='-', loff='-', nl='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Copy MLI data file with options for segment extractionCopyright 2013, Gamma Remote Sensing, v4.4 10-Jan-2013 uw/clw
- Parameters
MLI_in – (input) multi-look intensity image (float format)
MLI_in_par – (input) ISP image parameter file for input MLI
MLI_out – (output) selected MLI section (float format)
MLI_out_par – (output) ISP image parameter file for output MLI
roff – offset to starting range sample (enter - for default: 0)
nr – number of range samples (enter - for default: to end of line
loff – offset to starting line (enter - for default: 0)
nl – number of lines to copy (enter - for default: to end of file)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
OPOD_vec
(SLC_par, OPOD_dir, nstate='-', logpath=None, outdir=None, shellscript=None)[source]¶ - /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/OPOD_vecCopyright 2017, Gamma Remote Sensing, v1.2 7-Dec-2017 clw/awiExtract Sentinel state vectors from an OPOD file and write these state vectors to an SLC parameter fileThe required OPOD file located in a specified directory containing either restituted or precise state vectors
- Parameters
SLC_par – (input/output)ISP SLC/MLI image parameter file
OPOD_dir –
- (input) directory containing Sentinel-1 precise or restituted OPOD orbit data file (AUX_POEORB or AUX_RESORB)
nstate – number of state vectors to extract (default: include 60 sec extention at the start and end of the SLC data)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ORB_filt
(SLC_par_in, SLC_par_out, interval='-', extra='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Filter state vectors using a least-squares polynomial modelCopyright 2017, Gamma Remote Sensing, v1.1 21-Jun-2017 clw
- Parameters
SLC_par_in – (input) ISP image parameter file at least 5 state vectors
SLC_par_out – (output) ISP image parameter file with state vectors filtered using least-squares
interval – time interval between state vectors (enter - for default: state vector time interval in SLC_par)
extra – extra time for state vectors at start and end of image (sec.) (enter - for default: 5.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ORB_prop_SLC
(SLC_par, nstate='-', interval='-', extra='-', mode='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate state vectors using orbit propagation and interpolationCopyright 2008, Gamma Remote Sensing, v1.8 11-Jun-2008 clw/awi
- Parameters
SLC_par – (input) ISP image parameter file with at least 1 state vector
nstate – number of state vectors to calculate (enter - for default: nstate from image duration + extra)
interval – time interval between state vectors (enter - for default: state vector time interval in SLC_par)
extra – extra time for state vectors at start and end of image (sec.) (enter - for default: 30.0)
mode –
- orbit propagation mode:
0: polynomial interpolation (default, if 3 or more state vectors available)
1: integration of the equations of motion (default, if less than 3 state vectors available)
2: interpolate between state vectors, minimum of 3 state vectors; interpolation of the equations of motion outside of the time span of the existing state vectors
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ORRM_vec
(SLC_par, ORRM, nstate='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate state vectors extraction from ORRM fileCopyright 2008, Gamma Remote Sensing, v1.4 15-Nov-2004 clw
- Parameters
SLC_par – (input/output) ISP SLC/MLI image parameter file
ORRM – (input) ORRM state vector file
nstate – number of state vectors (default=5, maximum=1024)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
PRC_vec
(SLC_par, PRC, nstate='-', logpath=None, outdir=None, shellscript=None)[source]¶ - State vectors from ERS PRC orbit data for ISP processing clw/uwCopyright 2008, Gamma Remote Sensing, v1.7 clw 11-Jun-2008
- Parameters
SLC_par – (input/output) ISP SLC/MLI image parameter file
PRC – (input) PRC state vector file
nstate – number of state vectors (default=5, maximum=1024)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
RSAT2_vec
(SLC_par, RSAT2_orb, nstate='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract Radarsat-2 state vectors from a definitive orbit fileCopyright 2010, Gamma Remote Sensing, v1.0 clw 13-May-2010
- Parameters
SLC_par – (input) ISP image parameter file
RSAT2_orb – Radarsat-2 definitive orbit data file available from MDA. (orbit_number_def.orb)
nstate – number of state vectors to extract (enter - for default: 9)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
S1_BURST_tab
(SLC1_tab, SLC2_tab, BURST_tab, logpath=None, outdir=None, shellscript=None)[source]¶ - /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/S1_BURST_tabCopyright 2017, Gamma Remote Sensing, v1.0 25-May-2017 clwCalculate Sentinel BURST_tab based on parameters extracted from SLC parameter files listed in SLC1_tab and SLC2_tabRunning SLC_copy_S1_TOPS using BURST_tab will generate SLC-2 data with matching bursts for each swath of SLC-1 and SLC-2
- Parameters
SLC1_tab – (input) 3 column list of the reference TOPS SLC swaths in row order IW1, IW2, IW3
SLC2_tab – (input) 3 column list of TOPS SLC-2 swaths to be resampled to the geometry of the reference SLC1 in row order IW1, IW2, IW3.
BURST_tab – (output) 2 column list of the first and last bursts to copy from each swath, one line for each swath
BURST_tab – line entries: first_burst last_burst Note: first burst is 1
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
S1_BURST_tab_from_zipfile
(zipfile_list, zipfile_ref, burst_number_table_ref='-', cleaning='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
zipfile_list –
- (input) ASCII file containing S1 zip filename(s) of one data take
indicate - to generate burst_number_table of reference TOPS SLC
zipfile_ref – (input) S1 zip filename for the reference TOPS SLC
burst_number_table_ref –
- (input) ASCII file containing first/last burst numbers selected
indicate - to use all bursts as present in the reference TOPS SLC zipfile
cleaning –
- flag to indicate if intermediate files are deleted (default=1: yes, 0: not deleted)
intermediate and output filenames are generated based on the zip file names
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
S1_GRD_preproc
(S1_list, MLI_dir, pol, log, logpath=None, outdir=None, shellscript=None)[source]¶ - Preprocessing of Sentinel-1 TOPS GRD products, extract GRD data and generate MLI prodcutsCopyright 2018, Gamma Remote Sensing, v1.2 19-Mar-2018 clw/cm
- Parameters
S1_list – (input) single column text file. Entries are directories (including path) containing Sentinel-1 TOPS GRD products
MLI_dir –
- directory for output SLC data files and SLC parameter files
NOTE: output file names have the form : 20150119_hh.mli
pol – SLC polarization to extract (hh,hv,vh,vv)
log –
- (output) S1 GRD pre-processing log file
- -c
(option) apply radiometric calibration factor without noise subtraction
- -n
(option) apply radiometric calibration factor with noise subtraction
- -t
(option) include full timestamp YYYYMMDDtHHMMSSin SLC and SLC_par filenames, default YYYYMMDD
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
S1_OPOD_vec
(SLC_par, OPOD, nstate='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract Sentinel-1 OPOD state vectors and copy into the ISP image parameter fileCopyright 2017, Gamma Remote Sensing, v1.3 09-Mar-2017 awi/clw
- Parameters
SLC_par – (input/output)ISP SLC/MLI image parameter file
OPOD –
- (input) Sentinel-1 OPOD orbit data file (AUX_POEORB or AUX_RESORB)
nstate – number of state vectors to extract (default: include 60 sec extention at the start and end of the SLC data)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
S1_TOPS_preproc
(S1_list, SLC_dir, pol, log, logpath=None, outdir=None, shellscript=None)[source]¶ - Preprocessing of Sentinel-1 TOPS SLC products, extract SLC data and generate SLC_tabCopyright 2018, Gamma Remote Sensing, v2.2 10-Jan-2018 clw/awi
- Parameters
S1_list – (input) single column text file. Enteries are directories (including path) containing Sentinel-1 TOPS SLC products
SLC_dir –
- directory for output SLC data files and SLC parameter files
Note: output file names have the form : 20150119_iw1_hh.slc
pol – SLC polarization to extract (hh,hv,vh,vv)
log –
- (output) S1 SLC pre-processing log file
- -c
(option) apply radiometric calibration factor without noise subtraction
- -n
(option) apply radiometric calibration factor with noise subtraction
- -s
(option) output is SCOMPLEX format (default: FCOMPLEX)
- -t
(option) include full timestamp YYYYMMDDtHHMMSS in SLC and SLC_par filenames, default YYYYMMDD
- -m MLI_dir
(option) calculate MLI images and store in MLI_dir, enter . for current directory
- -r rlks
(option) number of MLI range looks (default: 10)
- -a azlks
(option) number of MLI azimuth looks (default: 2)
- -b SLC_tab
(option) SLC_tab filename, by default SLC_tab_YYMMDD or SLC_tab_YYYYMMDDtHHMMSS
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
S1_burstloc
(annotation_XML, logpath=None, outdir=None, shellscript=None)[source]¶ - Print Burst information found in the Sentinel-1 annotation fileCopyright 2018, Gamma Remote Sensing, v1.1 7-Feb-2018 awi/cm
-
pyroSAR.gamma.parser_demo.
S1_extract_png
(zipfile, logpath=None, outdir=None, shellscript=None)[source]¶
-
pyroSAR.gamma.parser_demo.
S1_import_SLC_from_zipfiles
(zipfile_list, burst_number_table_ref='-', pol='-', dtype='-', swath_flag='-', cleaning='-', noise_mode='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
zipfile_list – (input) ASCII file containing S1 zip filename(s) of one data take (one per line, in correct sequence)
burst_number_table_ref –
- (input) ASCII file containing first/last burst numbers selected
indicate - to use all bursts present in the indicated zipfiles
pol –
- polarization flag (default: -, other values are vh, hh, hv)
indicate - to use all polarizations available in the indicated zipfiles
dtype – output data type: default=0 (FCOMPLEX), 1: SCOMPLEX
swath_flag – flag to select sub-swaths to read (default=0 (as listed in burst_number_table_ref, all if no
burst_number_table_ref –
- provided), 1,2,3 (1 sub-swath only), 4 (1&2), 5 (2&3)
OPOD_dir directory with OPOD state vector files (default: .)
cleaning – flag to indicate if intermediate files are deleted (default = 1 –> deleted, 0: not deleted)
noise_mode –
- noise mode (default=1: apply noise correction; 2: do not apply and write out noise file
resulting files: burst SLC files (per polarization, with SLC_tab, SLC, SLC_par, TOPS_par and optionally SLC.noise) (concatenated, empty bursts added where necessary) at selected polarizations
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SBI_INT
(RSLC1, RSLC_par1, RSLC2, RSLC_par2, sbi, off, sbi_pwr, par_out, norm_sq='-', rlks='-', azlks='-', iwflg='-', cflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
RSLC1 – (input) master single-look complex image (fcomplex or scomplex)
RSLC_par1 – (input) SLC ISP image parameter file of RSLC1
RSLC2 – (input) co-registered slave SLC image (fcomplex or scomplex)
RSLC_par2 – (input) SLC ISP image parameter file of RSLC2
sbi – (output) multi-look split-beam interferogram (fcomplex)
off – (output) ISP offset parameter file for multi-look split-beam interferogram (ascii)
sbi_pwr – (output) multi-look reference backscatter intensity image (float)
par_out – (output) SLC/MLI ISP image parameter file of sbi_pwr
norm_sq – normalized squint difference parameter (default: 0.5)
rlks – number of range looks in output split-beam interferogram (default: 1)
azlks – number of azimuth looks in output split-beam interferogram (default: 1)
iwflg –
- inverse weighting flag:
0: do not remove azimuth processing spectral window (default)
1: apply inverse of azimuth compression processing window
cflg –
- flag to indicate if intermediate data (e.g. filtered slc) are deleted
0: intermediate data are deleted (default)
1: intermediate data are NOT deleted file names for band-pass filtered SLC are generated automatically by adding the letter b / f for the backward / foward looking beam
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_adf
(SLC, ref_SLC, ref_SLC_par, SLC_filt, mode='-', alpha='-', nfft_r='-', nfft_az='-', r_step='-', az_step='-', mwin_r='-', mwin_az='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Adaptive filtering of SLC data based on the local PSD of a reference SLC imageCopyright 2017, Gamma Remote Sensing, v1.2 29-Sep-2017 clw
- Parameters
SLC – (input) SLC to be filtered (FCOMPLEX or SCOMPLEX)
ref_SLC – (input) reference SLC
ref_SLC_par – (input) reference SLC parameter file
SLC_filt – (output) output filtered SLC using the power spectrum of the reference SLC
mode –
- SLC filtering mode (enter - for default):
0: 1D range PSD filter
1: 1D azimuth PSD filter
2: 2D range PSD * azimuth PSD filter
3: 2D median-filtered PSD filtering (default)
alpha – exponent to apply to PSD value (enter - for default: 0.30)
nfft_r – range filter FFT window size, 2**N, 16->1024, (enter - for default: 128)
nfft_az – azimuth filter FFT window size, 2**N, 16->1024, (enter - for default: 128)
r_step – range processing step (enter - for default: nfft_r/4)
az_step – azimuth processing step (enter - for default: nfft_az/4)
mwin_r – range median window size for median PSD filtering (enter - for default: 5)
mwin_az – azimuth median window size for median PSD filtering (enter - for default: 5)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_burst_copy
(SLC, SLC_par, TOPS_par, SLC_out, SLC_out_par, burst_num, drflg='-', SLC_par2='-', dtype='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Copy selected burst from Sentinel-1 TOPS SLC to a fileCopyright 2017, Gamma Remote Sensing, v1.4 24-Nov-2017 awi/clw/cm
- Parameters
SLC – (input) Sentinel-1 TOPS mode burst SLC
SLC_par – (input) SLC parameter file for the TOPS burst SLC
TOPS_par – (input) TOPS parameter file for the TOPS burst SLC
SLC_out – (output) SLC file containing a single burst
SLC_out_par – (output) SLC parameter file for the single burst SLC
burst_num – burst number of selected burst (1->number of bursts in the SLC)
drflg –
- deramp phase flag (enter - for default)
0: no modification of the burst SLC phase (default)
1: subtract TOPS Doppler phase ramp (deramp)
SLC_par2 – (output) SLC parameter file for the single burst SLC with deramped phase (drflg: 1, enter - for none)
dtype –
- output data type (enter - for default: same as input data):
0: FCOMPLEX
1: SCOMPLEX
NOTE: the program also supports FLOAT data; no data type conversion from or to FLOAT is possible
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_burst_corners
(SLC_par, TOPS_par, kml='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate corner geographic coordinates of Sentinel-1 TOPS SLC burstsCopyright 2017, Gamma Remote Sensing, v1.1 22-Aug-2017 awi/rc/cw
- Parameters
SLC_par – (input) SLC parameter file for the TOPS burst SLC
TOPS_par – (input) TOPS parameter file for the TOPS burst SLC
kml – (output) kml output file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_cat
(SLC_1, SLC_2, SLC1_par, SLC2_par, OFF_par, SLC_3, SLC3_par, dopflg='-', iflg='-', phflg='-', gainflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Concatenate two SLC images using 2-D SINC interpolationCopyright 2018, Gamma Remote Sensing, v1.9 30-Apr-2018 clw/cm
- Parameters
SLC_1 – (input) SLC-1 image
SLC_2 – (input) SLC-2 image to be appended to SLC-1
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset parameter file containing offset polynomials between SLC-1 and SLC-2
SLC_3 – (output) concatenated SLC
SLC3_par – (output) ISP image parameter file for concatenated image
dopflg –
- Doppler flag: (enter - for default)
0: ignore Doppler centroid information, assume 0 Hz Doppler centroid
1: use Doppler centroid information for interpolation (default)
iflg –
- input data type flag: (enter - for default)
0: input data are SLC images, use data type specified in SLC_par files (SCOMPLEX or FCOMPLEX) (default)
1: input scenes are interferograms, force FCOMPLEX data type
phflg –
- phase offset correction flag: (enter - for default)
0: no phase offset correction for SLC-2 (default)
1: apply phase offset correction to SLC-2
gainflg –
- gain correction flag: (enter - for default)
0: no gain correction for SLC-2 (default)
1: apply gain correction to SLC-2
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_cat_S1_TOPS
(SLC_tab1, SLC_tab2, SLC_tab3, logpath=None, outdir=None, shellscript=None)[source]¶ - Concatenate adjacent Sentinel-1 TOPS SLC imagesCopyright 2018, Gamma Remote Sensing v2.2 8-May-2018 clw/cm
- Parameters
SLC_tab1 –
- (input) 3 column list of the reference TOPS SLC swaths in row order IW1, IW2, IW3… (earlier time)
SLC_tab line entries: SLC SLC_par TOPS_par
SLC_tab2 – (input) 3 column list of TOPS SLC-2 swaths in the same order as the SLC_tab1 IW1, IW2, IW3… (later time)
SLC_tab3 – (input) 3 column list of the output concatenated TOPS swaths in the order IW1, IW2, IW3…
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_copy
(SLC_in, SLC_par_in, SLC_out, SLC_par_out, fcase='-', sc='-', roff='-', nr='-', loff='-', nl='-', swap='-', header_lines='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Copy SLC with options for data format conversion, segment extraction, and byte swappingCopyright 2015, Gamma Remote Sensing, v5.1 13-Aug-2015 uw/clw
- Parameters
SLC_in – (input) SLC (FCOMPLEX or SCOMPLEX format)
SLC_par_in – (input) ISP SLC parameter file for input SLC
SLC_out – (output) selected SLC section (FCOMPLEX or SCOMPLEX format)
SLC_par_out – (output) ISP SLC parameter file of output SLC
fcase –
- data format conversion (enter - for default: output format = input format)
1: FCOMPLEX –> FCOMPLEX (default sc = 1.0)
2: FCOMPLEX –> SCOMPLEX (default sc = 10000.0)
3: SCOMPLEX –> FCOMPLEX (default sc = 0.0001)
4: SCOMPLEX –> SCOMPLEX (default sc = 1.0)
sc – scale factor for input SLC data (enter - for default)
roff – offset to starting range sample (enter - for default: 0)
nr – number of range samples (enter - for default: to end of line)
loff – offset to starting line (enter - for default: 0)
nl – number of lines to copy (enter - for default: to end of file)
swap –
- swap data (enter - for default)
0: normal (default)
1: swap real/imaginary part of complex data
2: swap left/right (near/far range)
header_lines –
- number of input file header lines (enter - for default: 0)
NOTE: CEOS format SLC data have 1 header line
NOTE: file offset pointer size (bytes): 8
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_copy_S1_TOPS
(SLC1_tab, SLC2_tab, BURST_tab, dtype='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Copy multiple bursts from a Sentinel-1 TOPS SLC to an output TOPS SLCCopyright 2018, Gamma Remote Sensing v2.4 25-Apr-2018 clw/cm
- Parameters
SLC1_tab –
- (input) 3 column list of TOPS SLC-1 swaths to be copied in row order IW1, IW2, IW3:
SLC_tab line entries: SLC SLC_par TOPS_par
SLC2_tab – (input) 3 column list of the output copied SLC-1 TOPS swaths in the order IW1, IW2, IW3
BURST_tab – (input) 2 column list of the first and last burst to copy from each swath, one line for each swath
BURST_tab –
- line entries: first_burst last_burst Note: first burst is 1, enter - to select last physical burst
Note: if first_burst <= 0, then blank bursts are generated at the start of the output swath if last_burst exceeds the number of bursts in the input data swath, then blank bursts are appended to the end of the output swath
dtype –
- output data type (enter - for default: same as input data):
0: FCOMPLEX
1: SCOMPLEX
NOTE: the program also supports FLOAT data; no data type conversion from or to FLOAT is possible
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_copy_WB
(SLC_tab, SLC2_dir, logpath=None, outdir=None, shellscript=None)[source]¶ - /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/SLC_copy_WBCopyright 2011, Gamma Remote Sensing, v1.1 9-Apr-2011 clwCreate a new set of SLCs for all beams in a PALSAR WB ScanSAR image
- Parameters
SLC_tab – (input) two column list of input SLC files and SLC ISP image parameter files (including paths) (text)
SLC2_dir –
- directory to contain copied segments of the input SLC data and the associated parameter files
NOTE: current directory is denoted using .
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_corners
(SLC_par, terra_alt='-', kml='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate SLC/MLI image corners in geodetic latitude and longitude (deg.)Copyright 2017, Gamma Remote Sensing, v1.8 13-Dec-2017 clw/awi/cm
- Parameters
SLC_par – (input) ISP SLC/MLI image parameter file
terra_alt – (input) average terrain altitude (enter - for default: 300.000 meters)
kml – (output) kml output file (enter - for none)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_deramp
(SLC_1, SLC_par1, SLC_2, SLC_par2, mode, dop_ph='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate and subtract Doppler phase from an SLC imageCopyright 2016, Gamma Remote Sensing, v1.5 4-Feb-2016 clw
- Parameters
SLC_1 – (input) SLC data file (fcomplex or scomplex format)
SLC_par1 – (input) SLC parameter file with Doppler information
SLC_2 – (output) SLC with Doppler phase removed (or added)
SLC_par2 – (output) SLC parameter file for the output SLC
mode –
- mode of operation:
0: subtract Doppler phase ramp (deramp)
1: add Doppler phase ramp (reramp)
dop_ph –
- (output) Doppler phase (FLOAT)
Note: SLC_par1 contains the Doppler polynomial that is used to calculate the Doppler phase ramp
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_deramp_S1_TOPS
(SLC1_tab, SLC2_tab, mode, phflg, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate and subtract S1 TOPS Doppler phase from burst SLC dataCopyright 2018, Gamma Remote Sensing v1.6 25-Apr-2018 clw/cm
- Parameters
SLC1_tab –
- (input) 3 column list of TOPS SLC-1 swaths to be deramped in row order IW1, IW2, IW3:
SLC_tab line entries: SLC SLC_par TOPS_par
SLC2_tab – (input) 3 column list of the output deramped SLC-1 TOPS swaths in the order IW1, IW2, IW3
mode –
- mode of operation:
0: subtract TOPS Doppler phase (deramp)
1: add Doppler phase ramp (reramp)
phflg –
- deramp phase flag:
0: do not save TOPS Doppler phase (default)
1: save TOPS Doppler phase, output filename is the same as the deramped SLC with extension .dph
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_freq_shift
(SLC, SLC_par, SLC_shift, SLC_shift_par, freq_shift, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/SLC_freq_shift.cCopyright 2017, Gamma Remote Sensing, v1.0 28-Sep-2017 clwShift the effective radar carrier frequency of an SLC image by a specified amount
- Parameters
SLC – (input) SLC file (FCOMPLEX or SCOMPLEX)
SLC_par – (input) SLC parameter file
SLC_shift – (output) SLC data with shifted radar carrier frequency
SLC_shift_par – (output) SLC parameter file with shifted radar carrier frequency
freq_shift – radar carrier frequency shift (Hz)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_interp
(SLC_2, SLC1_par, SLC2_par, OFF_par, SLC_2R, SLC2R_par, loff='-', nlines='-', mode='-', order='-', logpath=None, outdir=None, shellscript=None)[source]¶ - SLC complex image resampling using 2-D Lanczos or B-spline interpolationCopyright 2017, Gamma Remote Sensing, v4.6 4-Dec-2017 clw/cm
- Parameters
SLC_2 – (input) SLC-2 image to be resampled to the geometry of the SLC-1 reference image
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
SLC_2R – (output) single-look complex image 2 coregistered to SLC-1
SLC2R_par – (output) SLC-2R ISP image parameter file for coregistered image
loff – offset to first valid output line (in SLC-1 lines) (enter - for default: 0)
nlines – number of valid output lines (enter - or 0 for default: to end of file)
mode –
- interpolation mode (enter - for default)
0: Lanczos (default)
1: B-spline
order – Lanczos interpolator order / B-spline degree 4 -> 9 (enter - for default: 4)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_interp_S1_TOPS
(SLC2_tab, SLC2_par, SLC1_tab, SLC1_par, OFF_par, SLC2R_tab, SLC_2R='-', SLC2R_par='-', mode='-', order='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Resample S1 TOPS (IW mode) SLC using global offset polynomialCopyright 2018, Gamma Remote Sensing v2.4 25-Apr-2018 clw/cm
- Parameters
SLC2_tab –
- (input) 3 column list of TOPS SLC-2 swaths to be resampled to the geometry of the reference SLC1 in row order IW1, IW2, IW3:
SLC_tab line entries: SLC SLC_par TOPS_par
SLC2_par – (input) SLC parameter file of TOPS SLC-2 mosaic, SLC-2 is generated from the TOPS swaths listed in SLC2_tab
SLC1_tab – (input) 3 column list of the reference TOPS SLC swaths in row order IW1, IW2, IW3
SLC1_par – (input) SLC parameter file of the reference TOPS SLC-1 mosaic, SLC-1 is generated from the TOPS swaths listed in SLC1_tab
OFF_par – (input) global ISP offset and interferogram parameter file, the offset model is determined from the TOPS SLC mosaics
SLC2R_tab – (input) 3 column list of the output resampled SLC-2 TOPS swaths in the order IW1, IW2, IW3
SLC_2R – (output) resampled mosaic generated from the swaths listed in SLC2R_tab, coregisted to the TOPS SLC-1 mosaic (enter - for none)
SLC2R_par – (output) SLC parameter file associated with the resampled TOPS SLC-2R mosaic (enter - for none)
mode –
- interpolation mode (enter - for default)
0: Lanczos (default)
1: B-spline
order – Lanczos interpolator order / B-spline degree 4 -> 9 (enter - for default: 4)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_interp_map
(SLC_2, SLC1_par, SLC2_par, OFF_par, SLC_2R, SLC2R_par, OFF_par2, coffs_sm, loff='-', nlines='-', mode='-', order='-', logpath=None, outdir=None, shellscript=None)[source]¶ - SLC image resampling using a 2-D offset mapCopyright 2017, Gamma Remote Sensing, v3.9 4-Dec-2017 clw/uw/cm
- Parameters
SLC_2 – (input) SLC-2 image to be resampled to the reference SLC-1 reference image
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
SLC_2R – (output) single-look complex image 2 coregistered to SLC-1
SLC2R_par – (output) SLC-2R ISP image parameter file for co-registered image
OFF_par2 – (input) ISP offset/interferogram parameter file used for residual offsets map (coffs_sm)
coffs_sm – (input) smoothed residual range and azimuth offsets (fcomplex)
loff – offset to first valid output line (in SLC-1 lines) (enter - for default: 0)
nlines – number of valid output lines (enter - or 0 for default: to end of file)
mode –
- interpolation mode (enter - for default)
0: Lanczos (default)
1: B-spline
order – Lanczos interpolator order / B-spline degree 4 -> 9 (enter - for default: 4)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_intf
(SLC_1, SLC_2R, SLC1_par, SLC2R_par, OFF_par, interf, rlks, azlks, loff='-', nlines='-', sps_flg='-', azf_flg='-', rp1_flg='-', rp2_flg='-', SLC_1s='-', SLC_2Rs='-', SLC_1s_par='-', SLC_2Rs_par='-', az_beta='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Interferogram generation from co-registered SLC dataCopyright 2017, Gamma Remote Sensing, v5.5 clw/uw/cm 26-Aug-2017
- Parameters
SLC_1 – (input) single-look complex image 1 (reference)
SLC_2R – (input) single-look complex image 2 coregistered to SLC-1
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2R_par – (input) SLC-2R ISP image parameter file for the co-registered image
OFF_par – (input) ISP offset/interferogram parameter file
interf – (output) interferogram from SLC-1 and SLC-2R
rlks – number of range looks
azlks – number of azimuth looks
loff – offset to starting line relative to SLC-1 for interferogram (default=0)
nlines – number of SLC lines to process (enter - for default: to end of file)
sps_flg –
- range spectral shift flag:
1: apply range spectral shift filter (default)
0: do not apply range spectral shift filter
azf_flg –
- azimuth common band filter flag:
1: apply azimuth common-band filter (default)
0: do not apply azimuth common band filter
rp1_flg –
- SLC-1 range phase mode
0: nearest approach (zero-Doppler) phase
1: ref. function center (Doppler centroid) (default)
rp2_flg –
- SLC-2 range phase mode
0: nearest approach (zero-Doppler) phase
1: ref. function center (Doppler centroid) (default)
SLC_1s – SLC-1 after range spectral shift and azimuth common-band filtering (FCOMPLEX format) (enter - for none)
SLC_2Rs – SLC-2R after range spectral shift and azimuth common-band filtering (FCOMPLEX format) (enter - for none)
SLC_1s_par – SLC-1s ISP image parameter file (enter - for none)
SLC_2Rs_par – SLC-2Rs ISP image parameter file (enter - for none)
az_beta – azimuth common-band filter Kaiser window parameter (default: 2.120)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_mosaic_S1_TOPS
(SLC_tab, SLC, SLC_par, rlks, azlks, wflg='-', SLCR_tab='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate SLC mosaic of Sentinel-1 TOPS burst SLC dataCopyright 2018, Gamma Remote Sensing v3.6 25-Apr-2018 clw/awi/cm
- Parameters
SLC_tab – (input) 3 column list of SLC, SLC_par, Sentinel-1 TOPS_par sorted in the order IW1, IW2, IW3…
SLC – (output) SLC mosaic image
SLC_par – (output) SLC mosaic image parameter file
rlks – number of range looks used to determine burst window boundaries for the mosaic
azlks – number of azimuth looks used to determine burst window boundaries for the mosaic
wflg –
- burst window calculation flag:
0: use existing burst window parameters if they exist, otherwise calculate burst window parameters (default)
1: calculate burst window parameters from burst parameters and the number of range and azimuth looks
SLCR_tab –
- (input) SLC_tab of the reference scene, 3 column list of SLC, SLC_par, TOPS_par sorted sorted in the order IW1, IW2, IW3
NOTE: When generating a mosaic of a resampled SLC, the SLC_tab of the reference scene is required
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_ovr
(SLC, SLC_par, SLC_ovr, SLC_ovr_par, r_ovr, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/SLC_ovr.cCopyright 2017, Gamma Remote Sensing, v1.9 12-Oct-2017 clw/cmOversample or subsample SLC data in slant-range
- Parameters
SLC – (input) SLC file (fcomplex or scomplex)
SLC_par – (input) SLC parameter file of SLC file
SLC_ovr – (output) range resampled SLC file (fcomplex or scomplex)
SLC_ovr_par – (output) SLC parameter file of range resampled SLC data file
r_ovr –
- integer range oversampling factor (2 –> 16)
if r_ovr < 0, the SLC will be subsampled, integer range subsampling factor (-2 –> -16)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_ovr2
(SLC, SLC_par, SLC_ovr, SLC_ovr_par, r_ovr, az_ovr='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
SLC – (input) SLC file (SCOMPLEX or FCOMPLEX, e.g. 20141126.SLC)
SLC_par – (input) SLC parameter file (e.g. 20141126.SLC.par)
SLC_ovr – (output) oversampled SLC file (same format as SLC)
SLC_ovr_par – (output) SLC parameter file of oversampled SLC file
r_ovr – range oversampling factor (e.g. 2.5)
az_ovr – azimuth oversampling factor (e.g. 2.5, default = 1.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SLC_phase_shift
(SLC_1, SLC_par1, SLC_2, SLC_par2, ph_shift, logpath=None, outdir=None, shellscript=None)[source]¶ - Add a constant phase from an SLC imageCopyright 2015, Gamma Remote Sensing, v1.1 1-Dec-2015 clw
- Parameters
SLC_1 – (input) SLC data file (fcomplex or scomplex format)
SLC_par1 – (input) SLC parameter file
SLC_2 – (output) SLC with phase shift
SLC_par2 – (output) SLC parameter file for the output SLC
ph_shift –
- phase shift to add to SLC phase (radians)
NOTE: Used to apply a constant phase shift of -1.25 radians to Sentinel-1 TOPS SLC data from swath IW1 acquired up to 10-Mar-2015. Used to apply a constant phase shift of -3.83 radians to Sentinel-1 TOPS SLC data with H-POL on receive (e.g. VH) acquired up to 10-Mar-2015.
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
SR_to_GRD
(MLI_par, OFF_par, GRD_par, in_file, out_file, rlks='-', azlks='-', interp_mode='-', grd_rsp='-', grd_azsp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Conversion to ground range for ISP MLI and INSAR data of type floatCopyright 2009, Gamma Remote Sensing, v1.9 7-May-2009 uw/clw
- Parameters
MLI_par – (input) MLI image parameter file of input slant range image (float)
OFF_par – (input) ISP offset/interferogram parameter file of input image (enter - image in MLI geometry)
GRD_par – (input/output) image parameter file of output ground range image
in_file – (input) slant range image (float)
out_file – (output) ground range image (float)
rlks – multi-looking in range (prior to resampling, default=1)
azlks – multi-looking in azimuth (prior to resampling, default=1)
interp_mode –
- interpolation mode
0: nearest neighbor (default)
1: spline
2: spline log
grd_rsp – output image ground range sample spacing (m) (default = (input image azimuth spacing) * azlks)
grd_azsp – output image azimuth sample spacing (m) (default = (input image azimuth spacing) * azlks)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
TX_SLC_preproc
(TSX_list, SLC_dir, log, logpath=None, outdir=None, shellscript=None)[source]¶ - Preprocessing of TerraSAR-X TDX1 and TSX1 SLC products using par_TX_SLCCopyright 2013, Gamma Remote Sensing, v1.2 22-Oct-2013 clw
- Parameters
TSX_list –
- (input) single column text file with directories (including path)
containing path to directory containing product XML for IMAGEDATA/*.cos files
SLC_dir – directory for output SLC data files and SLC parameter files
log – (output) processing log file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
UNWRAP
(interf, cc, pwr, unwrap, flag, width, lines, corr_thr='-', pwr_thr='-', r_init='-', az_init='-', r1='-', r2='-', l1='-', l2='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
interf – interferogram filename (*.int, *.flt)
cc – correlation filename (*.cc)
pwr – intensity image (*.pwr, *.mli)
unwrap – unwrap output file (*.unw)
flag – unwapping flag file (*.flag)
width – interferogram width
lines – number of interferogram lines
corr_thr – threshold for correlation in the unwrapping mask (default=.3)
pwr_thr – intensity threshold for phase unwrapping neutrons, multiples of average (default = 6.)
r_init – range seed location in the interferogram
az_init – azimuth seed location in the interferogram
r1 – starting range sample offset to unwrap
r2 – ending range sample offset to unwrap
l1 – starting line offset to unwrap
l2 – ending line offset to unwrap
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
UNWRAP_PAR
(interf_par, interf, cc, pwr, unwrap, flag, corr_thr='-', pwr_thr='-', r_init='-', az_init='-', r1='-', r2='-', l1='-', l2='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
interf_par – interferogram parameter file *.off
interf – interferogram filename (*.int, *.flt)
cc – correlation filename (*.cc)
pwr – intensity image (*.pwr, *.mli)
unwrap – unwrap output file (*.unw)
flag – unwapping flag file (*.flag)
corr_thr – threshold for correlation in the unwrapping mask (default=.3)
pwr_thr – intensity threshold for phase unwrapping neutrons, multiples of average (default = 6.)
r_init – range seed location in the interferogram
az_init – azimuth seed location in the interferogram
r1 – starting range sample offset to unwrap
r2 – ending range sample offset to unwrap
l1 – starting line offset to unwrap
l2 – ending line offset to unwrap
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
adapt_filt
(int, sm, width, low_SNR_thr='-', filt_width='-', xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Adaptive bandpass filtering of interferogramsCopyright 2016, Gamma Remote Sensing, v3.5 clw 17-Feb-2016
- Parameters
int – (input) complex interferogram image filename
sm – (output) smoothed interferogram filename
width – number of samples/row
low_SNR_thr – low SNR threshold (default = .25);
filt_width – filter width in pixels (default = 1.0)
xmin – offset to starting range pixel(default = 0)
xmax – offset last range pixel (default = width-1)
ymin – offset to starting azimuth row (default = 0)
ymax – offset to last azimuth row (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
adf
(interf, sm, cc, width, alpha='-', nfft='-', cc_win='-', step='-', loff='-', nlines='-', wfrac='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Adaptive spectral filtering for complex interferogramsCopyright 2017, Gamma Remote Sensing, v3.6 12-Oct-2017 clw
- Parameters
interf – (input) interferogram (fcomplex)
sm – (output) filtered interferogram (fcomplex)
cc – (output) coherence derived from filtered interferogram (float)
width – number of samples/line
alpha – exponent for non-linear filtering (enter - for default: 0.40)
nfft – filtering FFT window size, 2**N, 8 –> 512, (enter - for default: 32)
cc_win – coherence parameter estimation window size odd, max: 15 (enter - for default: 5)
step – processing step (enter - for default: nfft/8)
loff – offset to starting line to process (enter - for default: 0)
nlines – number of lines to process (enter - for default: to end of file)
wfrac – minimum fraction of points required to be non-zero in the filter window (enter - for default: 0.200)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
af_SLC
(SLC_par, SLC, rwin='-', azwin='-', dr='-', daz='-', thres='-', a1_flg='-', b0_flg='-', offsets='-', n_ovr='-', roff='-', azoff='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Focus testing for SLC data using autofocus estimation of effective velocityCopyright 2016, Gamma Remote Sensing, v1.4 16-Feb-2016 clw/uw
- Parameters
SLC_par – (input) ISP SLC image parameter file
SLC – (input) single-look complex image
rwin – range window size (enter - for default: 1024)
azwin – azimuth window size (enter - for default: 4096)
dr – range sample increment (enter - for default: 1024, enter 0 for single patch)
daz – azimuth line increment (enter - for default: 8192, enter 0 for single patch)
thres – offset estimation SNR threshold (enter - for default: 10.000)
a1_flg –
- fit a1 for first derivative of the effective velocity w.r.t.range
0: no (default)
1: yes
b0_flg –
- fit b0 for first derivative of the effective velocity w.r.t. along-track time
0: no (default)
1: yes
offsets – (output) range and azimuth offsets and SNR data in text format, enter - for no output
n_ovr – SLC oversampling factor (1,2,4: enter - for default: 1)
roff – range offset for single patch center
azoff – azimuth offset for single patch center
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ave_image
(im_list, width, ave, start='-', nlines='-', pixav_x='-', pixav_y='-', zflag='-', nmin='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate average of a stack of images (float format)Copyright 2015, Gamma Remote Sensing, v1.9 20-Nov-2015 clw
- Parameters
im_list – (input) text file with names of co-registered images in column 1 (float)
width – number of samples/line
ave – (output) average of input image data files (float)
start – starting line (default: 1)
nlines – number of lines to process (enter - for default: entire file)
pixav_x – number of pixels to average in width (default: 1)
pixav_y – number of pixels to average in height (default: 1)
zflag –
- zero flag:
0: interpret 0.0 as missing data value (default)
1: interpret 0.0 as valid data
nmin – minimum number of images required to calculate the average if zflag = 0 (default: 3/4*nfiles)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
az_integrate
(data, width, azi, cflg, scale='-', lz='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate azimuth integral of float data (unwrapped phase or azimuth offsets)Copyright 2012, Gamma Remote Sensing, v1.2 6-Feb-2012
- Parameters
data – (input) input data (example: SBI dtrapped phase) (float)
width – (input) number of range samples/line
azi – (output) input data integrated along azimuth (float)
cflg –
- integration constant flag:
0: set azimuth integral value to 0.0 at specified line
1: set average of the azimuth integral to 0.0
scale – scale factor to apply to the data (enter - for default, default: 1.0)
lz – line offset where the azimuth integral is set to 0.0 (cflg = 0, enter - for default, default: 0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
az_spec_SLC
(SLC, SLC_par, spectrum, roff='-', namb='-', pltflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Doppler centroid estimate from SLC imagesCopyright 2016, Gamma Remote Sensing, v2.9 clw 15-Feb-2016
- Parameters
SLC – (input) SAR image data file (fcomplex or scomplex format)
SLC_par – (input) ISP SLC image parameter file
spectrum – (output) Doppler spectrum (text format)
roff – range sample offset to center of estimation window (enter - for default=center_swath)
namb – number of multiples of the PRF to add to the estimated centroid (default=0)
pltflg –
- azimuth spectrum plotting flag:
0: none (default)
1: output plot in PNG format
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
base_copy
(SLC1_par, baseline_1, SLC2_par, baseline_2, time_rev='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate baseline file for a subsection of a reference SLCCopyright 2003, Gamma Remote Sensing, v1.1 6-Jan-2003 ts/clw/uw
- Parameters
SLC1_par – (input) ISP image parameter file of the reference SLC
baseline_1 – (input) baseline file derived using the reference SLC geometry
SLC2_par – (input) ISP image parameter file corresponding to the subsecton of the reference SLC
baseline_2 – (output) baseline file derived using the geometry and timing of the SLC subsection
time_rev – SLC image normal=1, time-reversed = -1 (default=1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
base_est_fft
(interf, SLC1_par, OFF_par, baseline, nazfft='-', r_samp='-', az_line='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Estimate baseline from interferogram fringe spectrumCopyright 2016, Gamma Remote Sensing, v2.1 clw/uw 20-Feb-2016
- Parameters
interf – (input) multi-look interferogram with range phase
SLC1_par – (input) SLC-1 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
baseline – (output) baseline file
nazfft – size of azimuth FFT (lines read from file, 2**N) (default: 512)
r_samp – range pixel offset to center of the FFT window (default: center)
az_line – line offset from start of the interf. for the FFT window (default=center)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
base_init
(SLC1_par, SLC2_par, OFF_par, interf, baseline, mflag='-', nrfft='-', nazfft='-', r_samp='-', az_line='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Estimate initial baseline using orbit state vectors, offsets, and interferogram phaseCopyright 2016, Gamma Remote Sensing, v2.5 clw/uw 19-Feb-2016
- Parameters
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file (enter - for none)
interf – (input) unflattened interferogram (enter - for none)
baseline – (output) baseline parameter file
mflag – baseline estimation method flag (enter - for default)
mflag –
- b_para b_perp input
0: orbits orbits p1,p2 (default)
1: offsets offsets p1,p2,off
2: orbits fft p1,p2,off,int
3: offsets fft p1,p2,off,int
4: fft fft p1,off,int
nrfft – size of range FFT (512, 1024,…) (enter - for default determined from image width)
nazfft – size of azimuth FFT (512, 1024,…) (enter - for default determined from image azimuth lines)
r_samp – range pixel offset to center of the FFT window (enter - for default, default: range center)
az_line –
- line offset from start of the interf. for the FFT window (enter - for default, default: azimuth center)
NOTE: Not all input data files are required for the different methods enter - for files that are not provided
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
base_ls
(SLC_par, OFF_par, gcp_ph, baseline, ph_flag='-', bc_flag='-', bn_flag='-', bcdot_flag='-', bndot_flag='-', bperp_min='-', SLC2R_par='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Least squares baseline estimation using terrain heightsCopyright 2005, Gamma Remote Sensing, v2.2 5-Sep-2005 clw/uw
- Parameters
SLC_par – (input) ISP parameter file of the reference SLC
OFF_par – (input) ISP interferogram/offset parameter file
gcp_ph – (input) ground control point heights + extracted unwrapped phase (text format)
baseline – (input) baseline parameter file
ph_flag – restore range phase ramp (default=0: do not restore 1: restore)
bc_flag – cross-track baseline component estimate (0:orbit derived 1:estimate from data, default=1)
bn_flag – normal baseline component estimate (0:orbit derived 1:estimate from data, default=1)
bcdot_flag – cross-track baseline rate estimate (0:orbit derived 1:estimate from data, default=1)
bndot_flag – normal baseline rate estimate (0:orbit derived 1:estimate from data, default=0)
bperp_min – minimum perpendicular baseline required for L.S estimation (m, default= 10.0)
SLC2R_par – (input) parameter file of resampled SLC, required if SLC-2 frequency differs from SLC-1
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
base_orbit
(SLC1_par, SLC2_par, baseline, logpath=None, outdir=None, shellscript=None)[source]¶ - Estimate baseline from orbit state vectorsCopyright 2015, Gamma Remote Sensing, v4.2 clw 18-Apr-2018
- Parameters
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
baseline – (output) baseline file (text format, enter - for none)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
base_perp
(baseline, SLC1_par, OFF_par, time_rev='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate baseline components perpendicular and parallel to look vectorCopyright 2005, Gamma Remote Sensing, v3.5 10-May-2005 clw/uw
- Parameters
baseline – (input) baseline file (text)
SLC1_par – (input) ISP parameter file of SLC-1 (reference SLC)
OFF_par – (input) ISP interferogram/offset parameter file
time_rev – SLC image normal=1 (default), image time-reversed = -1
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
bpf
(data_in, data_out, width, fc_x, bw_x, fc_y, bw_y, roff='-', azoff='-', nr='-', naz='-', data_type='-', f_mode='-', beta='-', fir_len='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Interferometric SAR Processor (ISP): Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/bpf.cCopyright 2016, Gamma Remote Sensing, v1.7 clw 3-Mar-2016Bandpass filter for 2-dimensional complex image data (FCOMPLEX or SCOMPLEX format)
- Parameters
data_in – (input) input data file (fcomplex, scomplex, float)
data_out – (output) output data file (fcomplex, scomplex, float)
width – number of samples/line
fc_x – normalized x-coord. (across) filter center frequency (range: -0.5 –> 0.5)
bw_x – normalized x-coord. bandwidth (range: 0 –> 1.0)
fc_y – normalized y-coord. (down) filter center frequency (range: -0.5 –> 0.5)
bw_y – normalized y-coord. bandwidth (range: 0 –> 1.0)
roff – offset to starting range to filter (default: 0)
azoff – offset to starting azimuth to filter (default: 0)
nr – number of range pixels to filter (default - : width - roff)
naz – number of azimuth lines to filter (default - : nlines - azoff)
data_type – data type (default 0:fcomplex, 1:scomplex, 2:float)
f_mode – fill mode (default 0:force filtered value to 0.0 for input value 0.0, 1:no forcing)
beta – Kaiser window beta parameter (default - : 1.000)
fir_len – finite impulse reponse filter length (default - : 128)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
bpf_ssi
(SLC, SLC_par, SLC_flow, SLC_flow_par, SLC_fhigh, SLC_fhigh_par, rbs='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
SLC – (input) SLC (FCOMPLEX or SCOMPLEX, SLC should not be resampled)
SLC_par – (input) SLC parameter file
SLC_flow – (output) low frequency band filtered SLC (FCOMPLEX or SCOMPLEX)
SLC_flow_par – (output) low frequency band filtered SLC parameter file
SLC_fhigh – (output) high frequency band filtered SLC (FCOMPLEX or SCOMPLEX)
SLC_fhigh_par – (output) high frequency band filtered SLC parameter file (FCOMPLEX or SCOMPLEX)
rbs –
- relative range spectrum band separation (default = 0.6666 –> lowest and highest third of processing bandwidth)
indicate - for the output files to only calculate filtering parameters
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
bridge
(int, flag, unw, bridge, width, xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Phase unwrap new regions with bridges to regions already unwrappedCopyright 2010, Gamma Remote Sensing, v1.5 clw 4-Nov-2010
- Parameters
int – (input) interferogram (fcomplex)
flag – (input) unwrapping flag file
unw – (input/output) unwrapped phase (float)
bridge – (input) bridge data file (text format)
width – number of samples/row
xmin – starting range pixel offset to unwrap (default = 0)
xmax – last range pixel offset to unwrap (default=width-1)
ymin – starting azimuth row offset to unwrap, relative to start (default = 0)
ymax – last azimuth row offset to unwrap, relative to start (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
cc_wave
(interf, MLI_1, MLI_2, cc, width, bx='-', by='-', wflg='-', xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Estimate interferometric coherenceCopyright 2017, Gamma Remote Sensing, v6.0 24-Oct-2017 clw/uw
- Parameters
interf – (input) normalized complex interferogram
MLI_1 – (input) intensity image of the first scene (float) (enter - for none)
MLI_2 – (input) intensity image of the second scene (float) (enter - for none)
cc – (output) estimated degree of coherence filename
width – number of samples/line
bx – estimation window size in columns (enter - for default:5.0)
by – estimation window size in lines (enter - for default:5.0)
wflg –
- estimation window (enter - for default):
0: rectangular (default)
1: triangular
2: Gaussian
3: normalized vector sum with rectangular window
NOTE: This estimator does not use the MLI data, even when specified
xmin – starting range pixel offset (enter - for default: 0)
xmax – last range pixel offset (enter - for default: width - 1)
ymin – starting azimuth row offset, relative to start (enter - for default: 0)
ymax – last azimuth row offset, relative to start (enter - for default: nlines - 1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
clear_flag
(flag, width, flag_bits, xmin, xmax, ymin, ymax, logpath=None, outdir=None, shellscript=None)[source]¶ - Clear phase unwrapping flag bitsCopyright 2005, Gamma Remote Sensing, v1.6 clw 17-Oct-2005
- Parameters
flag – (input)phase unwrapping flag filename
width – number of samples/row
flag_bits –
- byte with value of flag(s) to be cleared:
Charges = 3 Guides = 4 Low SNR = 8 Visited = 16 BRANCH PT. = 32 Cuts = 64 Lawn = 128
xmin – starting range pixel offset (default = 0)
xmax – last range pixel offset (default = width-1)
ymin – starting azimuth row offset, relative to start (default = 0)
ymax – last azimuth row offset, relative to start (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
corr_flag
(corr, flag, width, corr_thr, xmin='-', xmax='-', ymin='-', ymax='-', border='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Low correlation region detection for phase unwrappingCopyright 2005, Gamma Remote Sensing, v2.4 1-Mar-2005 clw/uw
- Parameters
corr – (input)interferometric correlation file
flag – (input/output) phase unwrapping flag filename
width – number of samples/row
corr_thr – corrrelation threshold (0 –> 1.0)
xmin – starting range pixel offset (default = 0)
xmax – last range pixel offset (default = width-1)
ymin – starting azimuth row offset, relative to start (default = 0)
ymax – last azimuth row offset, relative to start (default = nlines-1)
border – effective range of low coherence pixels to set low coherence flag (default=2)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
create_offset
(SLC1_par, SLC2_par, OFF_par, algorithm='-', rlks='-', azlks='-', iflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Create and update ISP offset and interferogram parameter filesCopyright 2015 Gamma Remote Sensing v5.3 clw/uw 10-Nov-2015
- Parameters
SLC1_par – (input) SLC-1/MLI-1 ISP image parameter filename (reference)
SLC2_par – (input) SLC-2/MLI-2 ISP image parameter filename
OFF_par – (input/output) ISP offset/interferogram parameter file
algorithm –
- offset estimation algorithm
1: intensity cross-correlation (default)
2: fringe visibility
rlks – number of interferogram range looks (enter - for default: 1)
azlks – number of interferogram azimuth looks (enter - for default: 1)
iflg –
- interactive mode flag (enter - for default)
0: non-interactive
1: interactive (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
dcomp_sirc
(infile, outfile, samples, loff='-', nlines='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract SIR-C SLC compressed single-pol dataCopyright 2009, Gamma Remote Sensing, v1.4 16-Oct-2009 clw
- Parameters
infile – (input) SIR-C single-pol SLC compressed data
outfile – (output) complex floating point data
samples – number of polarimetric samples per input line (4 bytes/sample)
loff – offset to starting line (default: 0)
nlines – number of lines to copy(default: entire file, 0 = entire file)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
dcomp_sirc_quad
(infile, outfile, samples, parameter, loff='-', nlines='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract SIR-C MLC or SLC compressed quad-pol dataCopyright 2009, Gamma Remote Sensing, v1.4 16-Oct-2009 uw/clw
- Parameters
infile – (input) SIR-C SLC or MLC quad-pol compressed data
outfile – (output) complex floating point data
samples – number of polarimetric samples per input line (10 bytes/sample)
parameter –
- polarimetric parameter to extract from SLC or MLC product:
0: SLC total power
1: SLC-HH
2: SLC-HV
3: SLC-VH
4: SLC-VV
5: MLC total power
6: MLC-HVHV*
7: MLC-VVVV*
8: MLC-HHHH*
9: MLC-HHHV*
10: MLC-HHVV*
11: MLC-HVVV*
loff – offset to starting line (default: 0)
nlines – number of lines to copy(default: entire file, 0 = entire file)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
error_stat
(d1, d2, width, dtype, roff, loff, nr, nl, report, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate statistics for two data files and their difference (FLOAT or FCOMPLEX)Copyright 2017, Gamma Remote Sensing, v1.2 clw 7-Jan-2016
- Parameters
d1 – (input) data file 1
d2 – (input) data file 2
width – image line width (samples/line)
dtype –
- data type for d1 and d2:
0: FLOAT
1: FCOMPLEX
roff – sample offset to region start (enter - for default: 0)
loff – line offset to region start (enter - for default: 0)
nr – region width (samples, enter - for default: width - roff)
nl – number of lines in the region (enter - for default: data_lines - loff)
report –
- output text file (keyword:value format)
keywords: data_1, data_2, d1_mean, d2_mean, d1_stddev, d2_stddev, root_mean_square_error, normalized_mean_square_error, cross_correlation_coefficient, cross_correlation_angle, total_samples, non_zero_samples, valid_fraction
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
fill_gaps
(data_in, width, data_out, method='-', max_dist='-', bp_flag='-', win='-', ds_method='-', ds_size='-', ds_data='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Fill gaps in 2D raster fileCopyright 2017, Gamma Remote Sensing, v1.6 6-Apr-2017 cm
- Parameters
data_in – (input) input data file (float)
width – width of input data
data_out – (output) output data file (float)
method –
- method flag (enter - for default: 1)
0: Laplace interpolation and linear extrapolation - least squares solution
1: Laplace interpolation and linear extrapolation - smaller system of linear equations than in method #0 in case of few missing values - least squares solution (default)
2: Laplace interpolation and linear extrapolation - solves a direct linear system of equations for the missing values (not a least squares solution)
3: biharmonic interpolation - implementation similar to method #1 - least squares solution
4: spring analogy: assumes springs (with a nominal length of zero) connect each node with every neighbor - least squares solution
5: average of the 8 nearest neighbors - this method solves a direct linear system for the missing values (not a least squares solution) hints: small gaps: use method #0, #1 or #3 - large gaps: use method #2, #4 or #5 - most demanding: method #3
max_dist – maximum interpolation / extrapolation distance in pixels (enter - or 0 for default: unlimited)
bp_flag –
- perform block processing (enter - for default: 0)
0: no block processing (default)
1: block processing (faster, avoid overflow, however might be slightly less accurate) when block processing is selected, a two-step process is carried out: 1: solving the downsampled array (coarse processing), 2: block processing
win – block size (pixels, 10 < win < 1000, enter - for default: 100)
ds_method –
- method flag (0 - 5, same choices as for [method] option) (enter - for default: same as [method])
hint: for an input containing large gaps, method #2, #4 or #5 may yield more appropriate results.
ds_size – maximum size of downsampled data (for both width and height) (pixels, ds_size > 10, enter - for default: 400)
ds_data – (output) write intermediate data after solving the downsampled array (float)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
fspf
(data_in, data_out, width, dtype='-', r_max='-', spf_type='-', MLI_par='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/fspf.cCopyright 2014, Gamma Remote Sensing, v1.2 28-May-2014 of/clw/uwFast spatial filter for 2D data
- Parameters
data_in – (input) input image data
data_out – (output) spatially filtered image data
width – number of samples/row
dtype –
- data type (enter - for default):
0: FCOMPLEX
1: SCOMPLEX
2: FLOAT (default)
r_max – maximum filter radius (range samples) (enter - for default: 64)
spf_type –
- spatial filter type (enter - for default):
0: uniform average (default for fcomplex and scomplex)
1: triangular weighted average: 1 - (r/r_max)
2: quadratic weighted average: 1 - (r/r_max)**2
3: Gaussian weighted average: exp(-2.*(r**2/r_max**2))
4: linear least-squares (default for float data)
MLI_par – MLI or SLC parameter file with the same number of looks as the input image, required for GPRI data
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
gcp_phase
(unw, OFF_par, gcp, gcp_ph, win_sz='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract unwrapped phase at GCP locationsCopyright 2006, Gamma Remote Sensing, v1.5 8-Mar-2006 clw
- Parameters
unw – (input) unwrapped interferometric phase
OFF_par – (input) ISP interferogram/offset parameter file
gcp – (input) ground control point data (text format)
gcp_ph – (output) ground control point data + extracted unwrapped phase (text)
win_sz – window size for averaging phase for each GCP, must be odd (default: 1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
get_GAMMA_RASTER
(mode, logpath=None, outdir=None, shellscript=None)[source]¶ - Script to determine the default extension for raster images or the operating system type v1.1 clw/uw 11-Nov-2016
- Parameters
mode –
- Specify the script string output:
0: raster file extension (ras, bmp, or tif)
1: OS type: Linux, MINGW64_NT-10.0, CYGWIN_NT-10.0, darwin…
NOTE: The default raster format on Linux systems is SUN_RASTER (*.ras), for all other operating systems it is BMP (*.bmp). SUN_RASTER and BMP images are limited in size to 32767 x 32767. TIFF files do not have this limitation. To set the default image raster format for Gamma programs, set the environment variable GAMMA_RASTER as follows: bash: export GAMMA_RASTER=SUN_RASTER #extension: ras export GAMMA_RASTER=BMP #extension: bmp export GAMMA_RASTER=TIFF #extension: tif csh,tcsh: setenv GAMMA_RASTER SUN_RASTER #extension: ras setenv GAMMA_RASTER BMP #extension: bmp setenv GAMMA_RASTER TIFF #extension: tif Environment variables can be set either in processing scripts, or in the shell initialization file (e.g. .bashrc) Programs in the Gamma software that generate raster image files query the value of GAMMA_RASTER if it has been defined. This script can be called from within another script to determine the default raster image format or OS type: bash: $ext=`get_GAMMA_RASTER 0` csh,tcsh: set ext=`get_GAMMA_RASTER 0` The variable $ext can then be used to specify the format of the output raster file by using it to construct the output file name: bash: $my_raster=$my_name”.”$ext csh/tcsh: set my_raster=$my_name”.”$ext OS: Linux GAMMA_RASTER: Undefined variable.
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
grasses
(int, flag, unw, width, xmin='-', xmax='-', ymin='-', ymax='-', xinit='-', yinit='-', init_ph='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Phase unwrapping by region growingCopyright 2005, Gamma Remote Sensing, v4.2 1-Mar-2005 clw/uw
- Parameters
int – (input) interferogram filename
flag – (input) unwrapping flag filename
unw – (output) unwrapped phase filename
width – number of samples/row
xmin – starting range pixel offset (default = 0)
xmax – last range pixel offset (default=width-1)
ymin – starting azimuth row offset, relative to start (default = 0)
ymax – last azimuth row offset, relative to start (default = nlines-1)
xinit – starting range pixel for unwrapping (default = width/2)
yinit – starting row to unwrap (default = height/2)
init_ph – flag to set phase at starting point to 0.0 (default 0: not set to 0.0, 1: set to 0.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
hgt_map
(unw, SLC_par, OFF_par, baseline, hgt, gr, ph_flag='-', loff='-', nlines='-', SLC2R_par='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Interferometric height/ground range estimation vs. slant rangeCopyright 2005, Gamma Remote Sensing, v5.1 clw/uw 9-Sep-2005
- Parameters
unw – (input) unwrapped interferometric phase
SLC_par – (input) ISP parameter file for the reference SLC
OFF_par – (input) ISP offset/interferogram processing parameters
baseline – (input) baseline parameter file
hgt – (output) height file (in slant range geometry) relative to the WGS-84 ellipsoid
gr – (output) cross-track ground ranges on the WGS-84 ellipsoid (in slant range geometry)
ph_flag – restore phase slope flag (0:no phase change default=1:add back phase ramp)
loff – offset to starting line (default = 0)
nlines – number of lines to calculate (enter - for default: to end of file)
SLC2R_par – (input) parameter file of resampled SLC, required if SLC-2 frequency differs from SLC-1
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
image_stat
(image, width, roff, loff, nr, nl, report, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate mean, standard deviation and number of non-zero values for a rectangular image region (float format)Copyright 2016, Gamma Remote Sensing, v1.3 3-Nov-2016
- Parameters
image – (input) image data file (float)
width – image line width (samples/line)
roff – sample offset to region start (enter - for default: 0)
loff – line offset to region start (enter - for default: 0)
nr – region width (samples, enter - for default: width - roff)
nl – number of lines in the region (enter - for default: image_lines - loff)
report –
- output text file (keyword:value format)
keywords: file, mean, stdev, total_samples, non_zero_samples, fraction_valid)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
init_offset
(SLC_1, SLC_2, SLC1_par, SLC2_par, OFF_par, rlks='-', azlks='-', rpos='-', azpos='-', offr='-', offaz='-', thres='-', rwin='-', azwin='-', cflag='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Determine initial offset between SLC images using correlation of image intensityCopyright 2016, Gamma Remote Sensing, v3.1 clw 12-Apr-2016
- Parameters
SLC_1 – (input) single-look complex image 1 (reference)
SLC_2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
rlks – number of range looks (default: 1)
azlks – number of azimuth looks (default: 1)
rpos – center of patch in range (samples) (enter - for default: image center)
azpos – center of patch in azimuth (lines) (enter - for default: image center)
offr – initial range offset (samples) (enter - for default: 0)
offaz – initial azimuth offset (lines) (enter - for default: 0)
thres – cross-correlation threshold (enter - for default: 0.150)
rwin – range window size (default: 512)
azwin – azimuth window size (default: 512)
cflag –
- copy offsets to the range and azimuth offset polynomials in the OFF_par
0: do not copy
1: copy constant range and azimuth offset (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
init_offset_orbit
(SLC1_par, SLC2_par, OFF_par, rpos='-', azpos='-', cflag='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Initial SLC image offset estimation from orbit state-vectors and image parametersCopyright 2016, Gamma Remote Sensing, v1.7 21-Apr-2016 clw/uw
- Parameters
SLC1_par – (input) SLC-1 parameter file
SLC2_par – (input) SLC-2 parameter file
OFF_par – (input/output) ISP/offset parameter file
rpos – range position for offset estimation (enter - for default: center of SLC-1)
azpos – azimuth position for offset estimation (enter - for default: center of SLC-1)
cflag –
- copy offsets to the range and azimuth offset polynomials in the OFF_par
0: do not copy
1: copy constant range and azimuth offset (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
interf_SLC
(SLC_1, SLC_2, SLC1_par, SLC2_par, OFF_par, MLI_1, MLI_2, interf, nrlk='-', nazlk='-', loff='-', nltot='-', rfilt='-', azfilt='-', s_off='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Interferogram generation using a pair of SLC imagesCopyright 2009, Gamma Remote Sensing, v4.10 clw/uw 27-Oct-2009
- Parameters
SLC_1 – (input) single-look complex image 1 (reference)
SLC_2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
MLI_1 – (output) multi-look intensity image 1
MLI_2 – (output) multi-look intensity image 2
interf – interferogram from SLC-1 and SLC-2
nrlk – number of interferogram range looks (default: 2)
nazlk – number of interferogram azimuth looks (default: 10)
loff – offset to starting line of interferogram (relative to start of SLC-1) (default: 0)
nltot – number of SLC lines to process (default: 0, to end of file)
rfilt –
- range common band filtering flag
0: OFF
1: ON (default)
azfilt –
- azimuth common band filtering flag
0: OFF
1: ON (default)
s_off –
- offset to the nominal range spectral shift (frac. of range sampling freq.) (default: 0.0)
NOTE: enter - as filename to avoid creation of corresponding output file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
interp_ad
(data_in, data_out, width, r_max='-', np_min='-', np_max='-', w_mode='-', type='-', cp_data='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Weighted interpolation of gaps in 2D data using an adaptive smoothing windowCopyright 2018, Gamma Remote Sensing, v2.1 13-Jun-2018 clw/uw
- Parameters
data_in – (input) data with gaps
data_out – (output) data with gaps filled by interpolation
width – number of samples/row
r_max – maximum interpolation window radius (default(-): 16)
np_min – minimum number of points used for the interpolation (default(-): 16)
np_max – maximum number of points used for the interpolation (default(-): 16)
w_mode –
- data weighting mode (enter - for default):
0: constant
1: 1 - (r/r_max)
2: 1 - (r/r_max)**2 (default)
3: exp(-2.*(r**2/r_max**2))
type –
- input and output data type:
0: FCOMPLEX
1: SCOMPLEX
2: FLOAT (default)
3: INT
4: SHORT
cp_data –
- copy data flag:
0: do not copy input data values to output
1: copy input data values to output (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ionosphere_check
(SLC, par, rwin='-', azwin='-', thresh='-', rstep='-', azstep='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
SLC – (input) SLC image (e.g. 20070214.slc)
par – (input) SLC parameter file (e.g. 20070214.slc.par)
rwin – range window size used in offset estimation (default = 256)
azwin – azimuth window size used in offset estimation (default = 256)
thresh – threshold value used in offset estimation (default = 0.1)
rstep – range step used in offset estimation (default = rwin/4)
azstep – azimuth step used in offset estimation (default = azwin/4)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
make_tab
(list, tab, definition, logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
list – (input) list file (ascii)
tab – (output) table file (ascii)
definition –
- definition used to generate line of output table
(example 1: ‘$1.slc $1.slc.par’) (example 2: ‘$1_$2.base $1_$2.off’)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
mask_data
(data_in, width, data_out, mask, dtype='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Mask float or fcomplex data using an 8-bit SUN/BMP/TIFF format raster imageCopyright 2016, Gamma Remote Sensing, v1.4 10-Dec-2016 clw
- Parameters
data_in – (input) data file (FLOAT or FCOMPLEX format)
width – width of input data file
data_out – (output) data file, same data format as input
mask –
- (input) mask file, SUN/BMP/TIFF raster format, 8-bits/pixel
output data values are set to 0.0 at all locations where the mask is black (0,0,0) or dn = 0 * NOTE: mask file must have the same width as the input data file
dtype –
- data format:
0: FLOAT (default)
1: FCOMPLEX
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
mcf
(interf, wgt, mask, unw, width, tri_mode='-', roff='-', loff='-', nr='-', nlines='-', npat_r='-', npat_az='-', ovrlap='-', r_init='-', az_init='-', init_flag='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Phase unwrapping using Minimum Cost Flow (MCF) and triangulationCopyright 2016, Gamma Remote Sensing, v2.2 clw/uw 30-Nov-2016
- Parameters
interf – (input) interferogram (*.int,*.flt)(fcomplex)
wgt – (input) weight factors (0 -> 1.0) file (float)(enter - for uniform weight)
mask – (input) validity mask (SUN/BMP/TIFF raster format, value 0 -> pixel not used)(enter - if no mask)
unw – (output) unwrapped phase image (*.unw)(float)
width – number of samples/row
tri_mode –
- triangulation mode
0: filled triangular mesh (default)
1: Delaunay triangulation
roff – offset to starting range of section to unwrap (default: 0)
loff – offset to starting line of section to unwrap (default: 0)
nr – number of range samples of section to unwrap (default(-): width - roff)
nlines – number of lines of section to unwrap (default(-): total number of lines - loff)
npat_r – number of patches in range
npat_az – number of patches in azimuth
ovrlap – overlap between patches in pixels (overlap >= 7, default(-): 512)
r_init – phase reference point range offset (default(-): roff)
az_init – phase reference point azimuth offset (default(-): loff)
init_flag –
- flag to set phase at reference point
0: use initial point phase value (default)
1: set phase to 0.0 at initial point
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
mk_ptarg
(RSLC_tab, cal_dir, r_samp, az_samp, osf='-', logpath=None, outdir=None, shellscript=None)[source]¶ - /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/mk_ptargCopyright 2012, Gamma Remote Sensing, v1.5 24-Apr-2012 clwPerform point target analysis on a stack of coregistered SLCs
- Parameters
RSLC_tab –
- (input) two column list of coregistered SLC filenames and SLC parameter filenames (including paths) (ascii)
SLC filename (includes path)
SLC parameter filename (includes path)
cal_dir – directory for output calibration results
r_samp – (input) calibration target range sample number
az_samp – (input) calibration target azimuth line number
osf –
- SLC over-sampling factor 2, 4, 8, 16, 32, 64 (default: 16)
- -s scale
(option) set image display scale factor (default: 0.3)
- -e exp
(option) set image display exponent (default: 0.5)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
mk_ptarg_cal
(CR_tab, SLC, SLC_par, cal_dir, sigma, c_rpos, c_azpos, osf='-', logpath=None, outdir=None, shellscript=None)[source]¶ - /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/mk_ptarg_calCopyright 2016, Gamma Remote Sensing, v1.8 19-Feb-2016 clwPerform point target analysis and calibration factor evaluation for a set of point targers
- Parameters
CR_tab –
- (input) 3 column list of row and sample number of corner reflectors
Corner reflector id
SLC column (includes path)
SLC row (includes path)
SLC – SLC image
SLC_par – SLC_parameter file
cal_dir – directory for output calibration results
sigma – Radar cross-section of the corner reflectors
c_rpos – range sample number of the center of the region used to estimate region
c_azpos – azimuth line of the center of the region used to estimate clutter
osf –
- SLC over-sampling factor 2, 4, 8, 16, 32, 64 (default: 16)
- -s scale
(option) set image display scale factor (default: 0.2)
- -e exp
(option) set image display exponent (default: 0.5)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
mk_tab3
(dir, ext_1, ext_2, ext_3, tab, logpath=None, outdir=None, shellscript=None)[source]¶ - Copyright 2014, Gamma Remote Sensing, v1.0 27-Jun-2014 clwGenerate SLC_tab, MLI_tab, or RAW_list for processing
- Parameters
dir – (input) directory including paths that contain the data files
ext_1 – (input) pattern to select data files (examples: slc, raw…), (enter - for all files in the directory)
ext_2 – (input) pattern to select parameter files that match the data (enter - for none, examples: slc.par, raw_par, raw.par)
ext_3 – (input) pattern to select parameter files that match the data (enter - for none, examples: ppar)
tab –
- (output) list of data filenames and associated parameter files (including paths) (text)
NOTE: The current directory is denoted using .
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
mosaic_WB
(data_tab, dtype, data_out, data_par_out, sc_flg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP: Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/mosaic_WB.cCopyright 2018, Gamma Remote Sensing, v1.3 26-Apr-2018 clw/cmMosaic Wide-Beam ScanSAR data processed by the MSP
- Parameters
data_tab – (input) 2 column list of data and ISP image parameter files for the beams in the mosaic (text)
dtype –
- (input) input data type:
0: FLOAT
1: FCOMPLEX
data_out – (output) output image mosaic
data_par_out – (output) ISP image parameter file for output image mosaic
sc_flg –
- intensity scaling flag:
0: do not scale different beam data values
1: use overlap regions to scale beam intensities (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_S1_TOPS
(SLC_tab, MLI, MLI_par, rlks, azlks, wflg='-', SLCR_tab='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate MLI mosaic from Sentinel-1 TOPS SLC burst data (FCOMPLEX and SCOMPLEX)Copyright 2018, Gamma Remote Sensing v3.4 26-Apr-2018 awi/clw/uw/cm
- Parameters
SLC_tab – (input) 3 column list of SLC, SLC_par, Sentinel-1 TOPS_par, rows sorted in the order IW1, IW2, IW3
MLI – (output) multi-look intensity image
MLI_par – (output) MLI image parameter file
rlks – number of range looks
azlks – number of azimuth looks
wflg –
- burst window calculation flag:
0: use existing burst window parameters if they exist, otherwise calculate burst window parameters (default)
1: calculate burst window parameters from burst parameters and the number of range and azimuth looks
SLCR_tab –
- (input) SLC_tab of the reference scene, 3 column list of SLC, SLC_par, TOPS_par sorted in the order IW1, IW2, IW3
NOTE: When generating an MLI mosaic of a resampled SLC, the SLC_tab of the reference scene is required
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_SLC_WSS
(SLC, SLC_par, MLI, MLI_par, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate multi-look intensity image (MLI) from a ASAR Wide-Swath SLCCopyright 2008, Gamma Remote Sensing v1.2 08-Jan-2008 clw/awi
- Parameters
SLC – (input) ASAR Wide-Swath SLC image
SLC_par – (input) ASAR Wide-Swath SLC image parameter file
MLI – (output) multi-look intensity image
MLI_par – (output) MLI image parameter file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_cpx
(data_in, OFF_par_in, data_out, OFF_par_out, rlks='-', azlks='-', loff='-', nlines='-', roff='-', nsamp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate multi-look averaged or interpolated 2D image (fcomplex data)Copyright 2013, Gamma Remote Sensing, v2.5 28-Mar-2013 clw/uw
- Parameters
data_in – (input) input fcomplex image file
OFF_par_in – (input) offset parameter file for input image
data_out – (output) output multi-look or interpolated fcomplex data file
OFF_par_out – (input/output) offset parameter file for output, if already exists, then used as input
rlks – number of range looks, values < -1, interpreted as an image oversampling factor (default: 1)
azlks – number azimuth looks, values < -1, interpreted as an image oversampling factor (default: 1)
loff – line offset to starting line (default: 0)
nlines – number of lines (default: 0, to end of file)
roff – offset to starting range sample (default:0)
nsamp – number of range samples to extract (default: 0, to end of line)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_look
(SLC, SLC_par, MLI, MLI_par, rlks, azlks, loff='-', nlines='-', scale='-', exp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate a multi-look intensity (MLI) image from an SLC imageCopyright 2018, Gamma Remote Sensing, v4.4 12-Jan-2018 clw/uw/cm
- Parameters
SLC – (input) single-look complex image
SLC_par – (input) SLC ISP image parameter file
MLI – (output) multi-look intensity image
MLI_par – (output) MLI ISP image parameter file
rlks – number of range looks
azlks – number of azimuth looks
loff – offset to starting line (enter - for default: 0)
nlines – number of SLC lines to process (enter - for default: entire file)
scale – scale factor for output MLI (enter - for default: 1.0)
exp – exponent for the output MLI (enter - for default: 1.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_look2
(SLC, SLC_par, MLI, MLI_par, r_dec, az_dec, r_enl='-', az_enl='-', lanczos='-', scale='-', exp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate an MLI image from an SLC with separate averaging window dimensions and decimation factorsCopyright 2017, Gamma Remote Sensing, v1.0 3-Jan-2018 clw/cm
- Parameters
SLC – (input) single-look complex image
SLC_par – (input) SLC ISP image parameter file
MLI – (output) multi-look intensity image
MLI_par – (output) MLI ISP image parameter file
r_dec – range decimation factor (integer)
az_dec – azimuth decimation factor (integer)
r_enl – number of SLC range samples to average, (integer) (enter - for default: r_dec)
az_enl – number of SLC azimuth lines to average, (integer) (enter - for default: az_dec)
lanczos – Lanczos interpolator order 5 -> 9 (enter - for default: 7)
scale – scale factor for output MLI (enter - for default: 1.0)
exp – exponent for the output MLI (enter - for default: 1.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_look_MLI
(MLI_in, MLI_in_par, MLI_out, MLI_out_par, rlks, azlks, loff='-', nlines='-', scale='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Multi-looking of intensity (MLI) imagesCopyright 2017, Gamma Remote Sensing, v1.7 31-Aug-2017 clw/uw/cm
- Parameters
MLI_in – (input) multi-look intensity image (MLI) file (float)
MLI_in_par – (input) MLI parameter file
MLI_out – (output) multi-looked MLI image (float)
MLI_out_par – (output) MLI parameter file for output MLI
rlks – range looks for multi-looking
azlks – azimuth looks for multi-looking
loff – offset to starting line (enter - for default = 0)
nlines – number of input MLI lines to process (enter - for default = entire file)
scale – scale factor for output MLI (enter - for default = 1.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
multi_real
(data_in, OFF_par_in, data_out, OFF_par_out, rlks='-', azlks='-', loff='-', nlines='-', roff='-', nsamp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate multi-look averaged or interpolated 2D image (float data)Copyright 2012, Gamma Remote Sensing, v2.5 16-Jul-2013 clw/uw
- Parameters
data_in – (input) input float image file
OFF_par_in – (input) interferogram/offset parameter file for input image
data_out – (output) output multi-look or interpolated float data file
OFF_par_out – (input/output) interferogram/offset parameter file for output, if already existing, used as input
rlks – number of range looks, values < -1, interpreted as an image oversampling factor (default: 1)
azlks – number azimuth looks, values < -1, interpreted as an image oversampling factor (default: 1)
loff – line offset to starting line (default:0)
nlines – number of lines (default:0, to end of file)
roff – offset to starting range sample (default:0)
nsamp – number of range samples to extract (default:0, to end of line)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
neutron
(intensity, flag, width, n_thres, ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate phase unwrapping neutrons using image intensityCopyright 2014, Gamma Remote Sensing, v2.3 20-Jan-2014 clw/uw
- Parameters
intensity – (input) image intensity
flag – (input) phase unwrapping flag file
width – number of samples/row
n_thres – neutron threshold, multiples of the average intensity (default=6.0)
ymin – offset to starting azimuth row (default = 0)
ymax – offset to last azimuth row (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_SLC
(SLC_1, SLC_2, SLC1_par, SLC2_par, OFF_par, offs, snr, rwin='-', azwin='-', offsets='-', n_ovr='-', nr='-', naz='-', thres='-', ISZ='-', pflag='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Offsets between SLC images using fringe visibilityCopyright 2016, Gamma Remote Sensing, v2.9 clw 4-Mar-2016
- Parameters
SLC_1 – (input) single-look complex image 1 (reference)
SLC_2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
offs – (output) offset estimates (fcomplex)
snr – (output) offset estimation SNR (float)
rwin – search window size (range pixels, (enter - for default from offset parameter file))
azwin – search window size (azimuth lines, (enter - for default from offset parameter file))
offsets – (output) range and azimuth offsets and SNR data in text format, enter - for no output
n_ovr – SLC oversampling factor (integer 2**N (1,2,4) default = 2)
nr – number of offset estimates in range direction (enter - for default from offset parameter file)
naz – number of offset estimates in azimuth direction (enter - for default from offset parameter file)
thres – offset estimation quality threshold (enter - for default from offset parameter file)
ISZ – search chip interferogram size (in non-oversampled pixels, default=16)
pflag – print flag (0:print offset summary default=1:print all offset data)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_SLC_tracking
(SLC_1, SLC_2, SLC1_par, SLC2_par, OFF_par, offs, snr, rsw='-', azsw='-', offsets='-', n_ovr='-', thres='-', rstep='-', azstep='-', rstart='-', rstop='-', azstart='-', azstop='-', ISZ='-', pflag='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Offset tracking between SLC images using fringe visibilityCopyright 2016, Gamma Remote Sensing, v3.6 clw 4-Mar-2016
- Parameters
SLC_1 – (input) single-look complex image 1 (reference)
SLC_2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
offs – (output) offset estimates (fcomplex)
snr – (output) offset estimation SNR (float)
rsw – range search window size (range pixels) (enter - for default from offset parameter file)
azsw – azimuth search window size (azimuth lines) (enter - for default from offset parameter file)
offsets – (output) range and azimuth offsets and SNR data in text format, enter - for no output
n_ovr – SLC over-sampling factor (integer 2**N (1,2,4) default: 2)
thres – offset estimation quality threshold (enter - for default from offset parameter file)
rstep – step in range pixels (enter - for default: rsw/2)
azstep – step in azimuth pixels (enter - for default: azsw/2)
rstart – starting range pixel (enter - for default: rsw/2)
rstop – ending range pixel (enter - for default: nr - rsw/2)
azstart – starting azimuth line (enter - for default: azsw/2)
azstop – ending azimuth line (enter - for default: nlines - azsw/2)
ISZ – search chip interferogram size (in non-oversampled pixels, default: 16)
pflag –
- print flag:
0: print offset summary (default)
1: print all offset data
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_add
(OFF_par1, OFF_par2, OFF_par3, logpath=None, outdir=None, shellscript=None)[source]¶ - Add range and azimuth offset polynomial coefficientsCopyright 2008, Gamma Remote Sensing, v1.1 12-Feb-2008 clw
- Parameters
OFF_par1 – (input) ISP offset/interferogram parameter file
OFF_par2 – (input) ISP offset/interferogram parameter file
OFF_par3 –
- (output) ISP offset/interferogram parameter file with sums of the
range and azimuth offset polynomials in OFF_par1 and OFF_par2
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_fit
(offs, ccp, OFF_par, coffs='-', coffsets='-', thres='-', npoly='-', interact_mode='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Range and azimuth offset polynomial estimationCopyright 2011, Gamma Remote Sensing, v3.3 28-Nov-2015 clw/uw
- Parameters
offs – (input) range and azimuth offset estimates for each patch (fcomplex)
ccp – (input) cross-correlation or SNR of each patch (float)
OFF_par – (input) ISP offset/interferogram parameter file
coffs – (output) culled range and azimuth offset estimates (fcomplex, enter - for none)
coffsets – (output) culled offset estimates and cross-correlation values (text format, enter - for none)
thres – cross-correlation threshold (enter - for default from OFF_par)
npoly – number of model polynomial parameters (enter - for default, 1, 3, 4, 6, default: 4)
interact_mode –
- interactive culling of input data:
0: off (default)
1: on
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_plot_az
(offset, r_min, r_max, r_plot, az_plot, logpath=None, outdir=None, shellscript=None)[source]¶ - IPTA script: /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/offset_plot_azCopyright 2004, Gamma Remote Sensing, v1.3 17-Jan-2005 clwextract range and azimuth offsets for a range window from an text offset file
- Parameters
offset – (input) list of range and azimuth offsets generated by offset_pwr (text)
r_min – minimum range pixel number to extract range and azimuth offsets
r_max – minimum range pixel number to extract range and azimuth offsets
r_plot – range offsets xmgrace plot file
az_plot – azimuth offsets xmgrace plot file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_plot_r
(offset, az_min, az_max, r_plot, az_plot, logpath=None, outdir=None, shellscript=None)[source]¶ - IPTA script: /usr/local/GAMMA_SOFTWARE-20180703/ISP/scripts/offset_plot_rCopyright 2004, Gamma Remote Sensing, v1.3 17-Jan-2005 clwextract range and azimuth offsets for an azimuth window from an text offset file
- Parameters
offset – (input) list of range and azimuth offsets generated by offset_pwr (text)
az_min – minimum azimuth line number to extract range and azimuth offsets
az_max – minimum azimuth line number to extract range and azimuth offsets
r_plot – range offsets xmgrace plot file
az_plot – azimuth offsets xmgrace plot file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_pwr
(SLC1, SLC2, SLC1_par, SLC2_par, OFF_par, offs, ccp, rwin='-', azwin='-', offsets='-', n_ovr='-', nr='-', naz='-', thres='-', lanczos='-', bw_frac='-', deramp='-', int_filt='-', pflag='-', pltflg='-', ccs='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Offset estimation between SLC images using intensity cross-correlationCopyright 2017, Gamma Remote Sensing, v5.5 clw/cm 17-Nov-2017
- Parameters
SLC1 – (input) single-look complex image 1 (reference)
SLC2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
offs – (output) offset estimates in range and azimuth (fcomplex)
ccp – (output) cross-correlation of each patch (0.0->1.0) (float)
rwin – range patch size (range pixels, enter - for default from offset parameter file)
azwin – azimuth patch size (azimuth lines, enter - for default from offset parameter file)
offsets – (output) range and azimuth offsets and cross-correlation data in text format, enter - for no output
n_ovr – SLC oversampling factor (integer 2**N (1,2,4), enter - for default: 2)
nr – number of offset estimates in range direction (enter - for default from offset parameter file)
naz – number of offset estimates in azimuth direction (enter - for default from offset parameter file)
thres – cross-correlation threshold (0.0->1.0) (enter - for default from offset parameter file)
lanczos – Lanczos interpolator order 5 -> 9 (enter - for default: 5)
bw_frac – bandwidth fraction of low-pass filter on complex data (0.0->1.0) (enter - for default: 1.0)
deramp –
- deramp SLC phase flag (enter - for default)
0: no deramp (Doppler centroid close to 0) (default)
1: deramp SLC phase
int_filt –
- intensity low-pass filter flag (enter - for default)
0: no filter
1: low-pass filter of intensity data, highly recommended when no oversampling used (default)
pflag –
- print flag (enter - for default)
0: print offset summary (default)
1: print all offset data
pltflg –
- plotting flag (enter - for default)
0: none (default)
1: screen output
2: screen output and PNG format plots
3: output plots in PDF format
ccs –
- (output) cross-correlation standard deviation of each patch (float)
NOTE: ScanSAR and TOPS data need to be previously deramped
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_pwr_tracking
(SLC1, SLC2, SLC1_par, SLC2_par, OFF_par, offs, ccp, rwin='-', azwin='-', offsets='-', n_ovr='-', thres='-', rstep='-', azstep='-', rstart='-', rstop='-', azstart='-', azstop='-', lanczos='-', bw_frac='-', deramp='-', int_filt='-', pflag='-', pltflg='-', ccs='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Offset tracking between SLC images using intensity cross-correlationCopyright 2017, Gamma Remote Sensing, v5.7 clw/cm 17-Nov-2017
- Parameters
SLC1 – (input) single-look complex image 1 (reference)
SLC2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
offs – (output) offset estimates in range and azimuth (fcomplex)
ccp – (output) cross-correlation of each patch (0.0->1.0) (float)
rwin – range patch size (range pixels, enter - for default from offset parameter file)
azwin – azimuth patch size (azimuth lines, enter - for default from offset parameter file)
offsets – (output) range and azimuth offsets and cross-correlation data in text format, enter - for no output
n_ovr – SLC oversampling factor (integer 2**N (1,2,4), enter - for default: 2)
thres – cross-correlation threshold (0.0->1.0) (enter - for default from offset parameter file)
rstep – step in range pixels (enter - for default: rwin/2)
azstep – step in azimuth pixels (enter - for default: azwin/2)
rstart – offset to starting range pixel (enter - for default: 0)
rstop – offset to ending range pixel (enter - for default: nr-1)
azstart – offset to starting azimuth line (enter - for default: 0)
azstop – offset to ending azimuth line (enter - for default: nlines-1)
lanczos – Lanczos interpolator order 5 -> 9 (enter - for default: 5)
bw_frac – bandwidth fraction of low-pass filter on complex data (0.0->1.0) (enter - for default: 1.0)
deramp –
- deramp SLC phase flag (enter - for default)
0: no deramp (Doppler centroid close to 0) (default)
1: deramp SLC phase
int_filt –
- intensity low-pass filter flag (enter - for default)
0: no filter
1: low-pass filter of intensity data, highly recommended when no oversampling used (default)
pflag –
- print flag (enter - for default)
0: print offset summary (default)
1: print all offset data
pltflg –
- plotting flag (enter - for default)
0: none (default)
1: screen output
2: screen output and PNG format plots
3: output plots in PDF format
ccs –
- (output) cross-correlation standard deviation of each patch (float)
NOTE: ScanSAR and TOPS data need to be previously deramped
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_pwr_tracking2
(SLC1, SLC2, SLC1_par, SLC2_par, OFF_par, offs, ccp, OFF_par2='-', offs2='-', rwin='-', azwin='-', offsets='-', n_ovr='-', thres='-', rstep='-', azstep='-', rstart='-', rstop='-', azstart='-', azstop='-', bw_frac='-', deramp='-', int_filt='-', pflag='-', pltflg='-', ccs='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Intensity cross-correlation offset tracking with the initial offset for each patch determined from input offset mapCopyright 2017, Gamma Remote Sensing, v1.5 clw/cm 20-Mar-2017
- Parameters
SLC1 – (input) single-look complex image 1 (reference)
SLC2 – (input) single-look complex image 2
SLC1_par – (input) SLC-1 ISP image parameter file
SLC2_par – (input) SLC-2 ISP image parameter file
OFF_par – (input) ISP offset/interferogram parameter file
offs – (output) offset estimates in range and azimuth (fcomplex)
ccp – (output) cross-correlation of each patch (0.0->1.0) (float)
OFF_par2 – (input) ISP offset/interferogram parameter file of the offset map to determine initial offsets (enter - for none)
offs2 – (input) input range and azimuth offset map to determine initial offsets (enter - for none)
rwin – range patch size (range pixels, enter - for default from offset parameter file)
azwin – azimuth patch size (azimuth lines, enter - for default from offset parameter file)
offsets – (output) range and azimuth offsets and cross-correlation data in text format, enter - for no output
n_ovr – SLC oversampling factor (integer 2**N (1,2,4), enter - for default: 2)
thres – cross-correlation threshold (0.0->1.0) (enter - for default from offset parameter file)
rstep – step in range pixels (enter - for default: rwin/2)
azstep – step in azimuth pixels (enter - for default: azwin/2)
rstart – offset to starting range pixel (enter - for default: 0)
rstop – offset to ending range pixel (enter - for default: nr-1)
azstart – offset to starting azimuth line (enter - for default: 0)
azstop – offset to ending azimuth line (enter - for default: nlines-1)
bw_frac – bandwidth fraction of low-pass filter on complex data (0.0->1.0) (enter - for default: 1.0)
deramp –
- deramp SLC phase flag (enter - for default)
0: no deramp (Doppler centroid close to 0) (default)
1: deramp SLC phase
int_filt –
- intensity low-pass filter flag (enter - for default)
0: no filter
1: low-pass filter of intensity data, highly recommended when no oversampling used (default)
pflag –
- print flag (enter - for default)
0: print offset summary (default)
1: print all offset data
pltflg –
- plotting flag (enter - for default)
0: none (default)
1: screen output
2: screen output and PNG format plots
3: output plots in PDF format
ccs –
- (output) cross-correlation standard deviation of each patch (float)
NOTE: ScanSAR and TOPS data need to be previously deramped
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_sub
(offs, OFF_par, offs_sub, logpath=None, outdir=None, shellscript=None)[source]¶ - Subtraction of polynomial from range and azimuth offset estimatesCopyright 2017, Gamma Remote Sensing, v1.0 27-Mar-2017 cm
- Parameters
offs – (input) range and azimuth offset estimates (fcomplex)
OFF_par – (input) ISP offset/interferogram parameter file
offs_sub – (output) range and azimuth offset estimates after polynomial subtraction (fcomplex)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
offset_tracking
(offs, ccp, SLC_par, OFF_par, disp_map, disp_val='-', mode='-', thres='-', poly_flag='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Conversion of range and azimuth offsets files to displacement mapCopyright 2017, Gamma Remote Sensing, v2.0 4-Apr-2017 ts/clw/uw
- Parameters
offs – (input) range and azimuth offset estimates (fcomplex)
ccp – (input) cross-correlation of the offset estimates (float)
SLC_par – (input) SLC parameter file of reference SLC
OFF_par – (input) offset parameter file used in the offset tracking
disp_map – (output) range and azimuth displacement estimates (fcomplex)
disp_val – (output) range and azimuth displacement estimates and cross-correlation values (enter - for none) (text)
mode –
- flag indicating displacement mode:
0: displacement in range and azimuth pixels
1: displacement in meters in slant range and azimuth directions
2: displacement in meters in ground range and azimuth directions (default)
thres – cross-correlation threshold to accept offset value (default from OFF_par)
poly_flag –
- flag indicating if trend calculated using offset polynomials from OFF_par is subtracted:
0: do not subtract polynomial trend from offset data
1: subtract polynomial trend from offset data (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ACS_ERS
(CEOS_SAR_leader, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file generation for ERS SLC data from the ACS processorCopyright 2005, Gamma Remote Sensing, v1.3 17-Oct-2005 clw/uw
- Parameters
CEOS_SAR_leader – (input) ERS CEOS SAR leader file
SLC_par – (output) ISP SLC parameter file (example <orbit>.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ASAR
(ASAR_ERS_file, output_name, K_dB='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Extract SLC/MLI image parameters and images from ENVISAT ASAR SLC, WSS, APP, and PRI productsCopyright 2018, Gamma Remote Sensing, v2.7 9-Apr-2018 clw/uw/awi
- Parameters
ASAR_ERS_file – (input) ASAR or ERS data in ASAR format (SAR_IMS_1P) including header and image as provided by ESA
output_name – (output) common part of output file names (e.g. YYYMMDD date)
K_dB –
- Calibration factor in dB (nominal value for all ASAR modes: 55.0)
NOTE: Use - to use the calibration factor provided in the ASAR file header
NOTE: In the case that a calibration factor is specified on the command line, PRI images are converted to radiometrically calibrated ground-range intensity images in float format
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ASF_91
(CEOS_leader, CEOS_trailer, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - SLC parameter file for data data from theAlaska SAR Facility (1991-1996)Copyright 2008, Gamma Remote Sensing, v3.3 25-Mar-2008 clw/uw
- Parameters
CEOS_leader – (input) ASF CEOS leader file
CEOS_trailer – (input) ASF CEOS trailer file
SLC_par – (output) ISP SLC image parameter file
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ASF_96
(CEOS_SAR_leader, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for ASF data 1996–>present v1.1Copyright 2003, Gamma Remote Sensing, v1.4 4-Aug-2003 clw/uw
- Parameters
CEOS_SAR_leader – (input) CEOS SAR leader file
SLC_par – (output) ISP SLC parameter file (example <orbit>.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ASF_PRI
(CEOS_leader, CEOS_data, GRD_par, GRD, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for ASF detected ground range images (L1) Sep 1996 –> presentCopyright 2014, Gamma Remote Sensing, v1.3 3-Apr-2014 clw/uw
- Parameters
CEOS_leader – (input) CEOS leader file
CEOS_data – (input) CEOS data file binary)
GRD_par – (output) ISP ground range image parameter file
GRD –
- (output) ISP ground range image (enter - for none, float intensity)
NOTE: The input data converted to intensity using the expression: (dn/1000.)**2
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ASF_RSAT_SS
(CEOS_leader, CEOS_data, GRD_par, GRD, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for ASF Radarsat-1 SCANSAR imagesCopyright 2004, Gamma Remote Sensing, v1.0 27-Aug-2004 clw/uw
- Parameters
CEOS_leader – (input) CEOS leader file (Radarsat-1 SCANSAR)
CEOS_data – (input) CEOS data file (Radarsat-1 SCANSAR)
GRD_par – (output) ISP image parameter file (example <orbit>.mli.par)
GRD – (output) ISP image (example <orbit>.mli) (enter - for none, short integer)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ASF_SLC
(CEOS_leader, SLC_par, CEOS_data='-', SLC='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC image parameter file and reformat dataCopyright 2012, Gamma Remote Sensing, v1.0 27-Aug-2012 clw/uw
- Parameters
CEOS_leader – (input) CEOS SAR leader file
SLC_par – (output) ISP SLC parameter file (example <date>.slc.par)
CEOS_data – (input) CEOS data file (example: dat_01.001)
SLC – (output) SLC data with file and line headers removed (example: <date>.slc)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ATLSCI_ERS
(CEOS_SAR_leader, CEOS_Image, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for ATL-SCI ERS SLC dataCopyright 2003, Gamma Remote Sensing, v2.8 24-Nov-2003 clw
- Parameters
CEOS_SAR_leader – (input) CEOS SAR leader file (LEA_01.001)
CEOS_Image – (input) CEOS image data segment (DAT_01.001)
SLC_par – (output) ISP SLC parameter file (example <orbit>.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_CS_SLC
(HDF5, trunk, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate ISP SLC parameter and image files for Cosmo-Skymed SCS dataCopyright 2017, Gamma Remote Sensing, v1.8 26-Sep-2017 awi/ms/cw/uw
- Parameters
HDF5 – (input) SCS data file in HDF5 format
trunk –
- (output) output file name trunk used for output filenames
(example: yyyymmdd -> yyyymmdd_pol_beamid.slc yyyymmdd_pol_beamid.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_CS_SLC_TIF
(GeoTIFF, XML, trunk, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate ISP SLC parameter and image files for Cosmo Skymed SCS data in GeoTIFF formatCopyright 2018, Gamma Remote Sensing, v1.5 7-Feb-2018 awi/ms/clw/cm
- Parameters
GeoTIFF – (input) SCS data file in GeoTIFF format
XML – (input) SCS meta data file in XML format
trunk –
- (output) output file name trunk used for output filenames
(example: yyyymmdd -> yyyymmdd_pol_beamid.slc yyyymmdd_pol_beamid.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_EORC_JERS_SLC
(CEOS_SAR_leader, SLC_par, CEOS_data='-', SLC='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Reformat EORC processed JERS-1 SLC and generate the ISP parameter fileCopyright 2008, Gamma Remote Sensing, v1.4 9-Oct-2008 clw
- Parameters
CEOS_SAR_leader – (input) CEOS SAR leader file for JERS SLC processed by EORC
SLC_par – (output) ISP image parameter file
CEOS_data – (input) CEOS format SLC data (IMOP_01.DAT, enter - for none)
SLC – (output) reformated JERS SLC (example: yyyymmdd.SLC, enter - for none)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_EORC_PALSAR
(CEOS_leader, SLC_par, CEOS_data, SLC='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Reformat EORC PALSAR + PALSAR2 level 1.1 CEOS format SLC data and generate the ISP parameter fileCopyright 2017, Gamma Remote Sensing, v2.8 18-Dec-2017 clw
- Parameters
CEOS_leader – (input) CEOS leader file for PALSAR or PALSAR-2 Level 1.1 SLC data (LED…)
SLC_par – (output) ISP image parameter file (example: yyyymmdd.slc.par)
CEOS_data – (input) PALSAR CEOS format Level 1.1 SLC (IMG…)
SLC – (output) reformatted PALSAR SLC (example: yyyymmdd.slc, enter - for none)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ERSDAC_PALSAR
(ERSDAC_SLC_par, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate the ISP image parameter file from ERSDAC PALSAR level 1.1 SLC dataCopyright 2011, Gamma Remote Sensing, v1.5 31-Oct-2011 clw
- Parameters
ERSDAC_SLC_par – (input) ERSDAC SLC parameter file Level 1.1 (PASL11*.SLC.par)
SLC_par – (output) ISP image parameter file (example: yyyymmdd.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_ESA_ERS
(CEOS_SAR_leader, SLC_par, inlist, CEOS_DAT='-', SLC='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file generation for ERS SLC data from the PGS, VMP, and SPF processorsCopyright 2012, Gamma Remote Sensing, v1.4 12-Jan-2012 clw/uw
- Parameters
CEOS_SAR_leader – (input) ERS CEOS SAR leader file
SLC_par – (output) ISP SLC parameter file (example: <date>.slc.par)
inlist – a list of arguments to be passed to stdin
CEOS_DAT – (input) CEOS data file (example: DAT_01.001)
SLC – (output) SLC data with file and line headers removed (example: <date>.slc)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_GF3_SLC
(GeoTIFF, annotation_XML, SLC_par, SLC='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC parameter file and SLC image from a Gaofen-3 data set in GeoTIFF formatCopyright 2018, Gamma Remote Sensing, v1.2 8-Mar-2018 cm
- Parameters
GeoTIFF – (input) Gaofen-3 data file in GeoTIFF format (*.tiff) (enter - for none)
annotation_XML – (input) Gaofen-3 annotation file in XML format (*.meta.xml)
SLC_par – (output) ISP SLC parameter file (example: yyyymmdd.slc.par)
SLC – (output) ISP SLC data file (example: yyyymmdd.slc) (enter - for none, SLC output will not be produced)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_IECAS_SLC
(aux_data, slc_Re, slc_Im, date, SLC_par, SLC, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC parameter and image files for IECAS SLC dataCopyright 2011, Gamma Remote Sensing, v1.2 24-Jan-2011
- Parameters
aux_data – (input) IECAS SAR auxillary data (POS*.dat)
slc_Re – (input) real part of complex SLC data
slc_Im – (input) imaginary part of complex SLC data
date – (input) acquistion date format: YYYYMMDD (example 20110121) from aux_data filename
SLC_par – (output) ISP SLC parameter file
SLC – (output) SLC image
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_KC_PALSAR_slr
(facter_m, CEOS_leader, SLC_par, pol, pls_mode, KC_data, pwr, fdtab='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate ISP parameter file, Doppler table, and images for PALSAR KC Slant-Range dataCopyright 2013, Gamma Remote Sensing, v1.9.1 20-Aug-2013 ms,awi,clw
- Parameters
facter_m – (input) PALSAR Kyoto-Carbon parameter file
CEOS_leader – (input) PALSAR Kyoto-Carbon leader file (LED)
SLC_par – (output) ISP image parameter file (example: yyyymmdd.mli.par)
pol – polarization e.g. HH or HV
pls_mode –
- PALSAR acquisition mode:
1: Fine Beam Single
2: Fine Beam Double
3: Wide Beam
KC_data – (input) PALSAR Kyoto-Carbon data (short, little endian, amplitude)
pwr – (output) PALSAR intensity (float, GAMMA Software endianness)
fdtab – (output)table of output polynomials, one polynomial/block used as input to gc_map_fd
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_KS_DGM
(HDF5, trunk, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate ISP SLC parameter and PRI image files for Kompsat DGM dataCopyright 2018, Gamma Remote Sensing, v1.1 7-Feb-2018 awi/cm
- Parameters
HDF5 – (input) DGM data file in HDF5 format
trunk –
- (output) output file name trunk used for output filenames
(example: yyyymmdd -> yyyymmdd_pol_beamid.slc yyyymmdd_pol_beamid.pri.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_KS_SLC
(HDF5, trunk, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate ISP SLC parameter and image files for Kompsat SCS dataCopyright 2018, Gamma Remote Sensing, v1.5 7-Feb-2018 awi/clw/cm
- Parameters
HDF5 – (input) SCS data file in HDF5 format
trunk –
- (output) output file name trunk used for output filenames
(example: yyyymmdd -> yyyymmdd_pol_beamid.slc yyyymmdd_pol_beamid.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_MSP
(SAR_par, PROC_par, SLC_MLI_par, image_format='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP image parameter file from MSP processing parameter and sensor filesCopyright 2010, Gamma Remote Sensing, v3.3 2-Oct-2010 clw/uw
- Parameters
SAR_par – (input) MSP SAR sensor parameter file
PROC_par – (input) MSP processing parameter file
SLC_MLI_par – (output) ISP SLC/MLI image parameter file
image_format –
- image format flag (default: from MSP processing parameter file)
0: fcomplex (pairs of 4-byte float)
1: scomplex (pairs of 2-byte short integer)
2: float (4-bytes/value)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_PRI
(CEOS_SAR_leader, PRI_par, CEOS_DAT, PRI, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file generation for ERS PRI data from the PGS and VMP processorsCopyright 2012, Gamma Remote Sensing, v1.6 12-Jan-2012 clw
- Parameters
CEOS_SAR_leader – (input) ERS CEOS SAR leader file for PRI product
PRI_par – (output) ISP image parameter file (example: <yyyymmdd>.pri.par)
CEOS_DAT – (input) CEOS data file (example: DAT_01.001)
PRI – (output) PRI data with file and line headers removed (example: <yyyymmdd>.pri)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_PRI_ESRIN_JERS
(CEOS_SAR_leader, PRI_par, CEOS_DAT, PRI, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP GRD parameter file for ESRIN processed JERS PRI dataCopyright 2008, Gamma Remote Sensing, v1.8 16-May-2008 clw/uw
- Parameters
CEOS_SAR_leader – (input) ERS CEOS SAR leader file for PRI product
PRI_par – (output) ISP image parameter file (example: <yyyymmdd>.pri.par)
CEOS_DAT – (input) CEOS data file (example: DAT_01.001)
PRI – (output) PRI data with file and line headers removed (example: <yyyymmdd>.pri)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_PulSAR
(CEOS_SAR_leader, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file generation for ERS SLC data from the PULSAR SAR processorCopyright 2003, Gamma Remote Sensing, v1.2 4-Aug-2003 clw/uw
- Parameters
CEOS_SAR_leader – (input) ERS CEOS SAR leader file
SLC_par – (output) ISP SLC parameter file (example <orbit>.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RISAT_GRD
(CEOS_leader, BAND_META, GRD_par, CEOS_image, GRD='-', line_dir='-', pix_dir='-', cal_flg='-', KdB='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Read RISAT-1 Ground-Range data from a CEOS data set and perform radiometric calibrationCopyright 2015, Gamma Remote Sensing, v1.2 24-Feb-2015 clw
- Parameters
CEOS_leader – (input) CEOS SAR leader file (example: lea_01.001)
BAND_META – (input) BAND_META.txt, additional RISAT system parameters for the scene (format keywork=value)
GRD_par – (output) ISP GRD parameter file (example: YYYYMMDD.grd.par)
CEOS_image – (input) CEOS Ground-Range image file (example: dat_01.001)
GRD – (output) Ground-Range data with file and line headers removed (enter - for none: example: YYYYMMDD.grd)
line_dir –
- set output image line direction (enter - for default):
0: used value derived from CEOS leader file
1: retain input data line direction (default)
-1: reverse input data line direction
pix_dir –
- set output pixel direction (enter - for default):
0: used value derived from CEOS leader file
1: retain input data pixel direction (default)
-1: reverse input data pixel direction
cal_flg –
- calibration flag (enter - for default):
0: do not apply radiometric calibration
1: apply radiometric calibration including KdB and incidence angle correction (default)
KdB – calibration constant (dB) (enter - to use value in the CEOS leader)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RISAT_SLC
(CEOS_leader, BAND_META, SLC_par, CEOS_image, SLC='-', line_dir='-', pix_dir='-', cal_flg='-', KdB='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Read RISAT-1 CEOS format SLC data and perform radiometric calibrationCopyright 2013, Gamma Remote Sensing, v1.1 3-Jun-2013 clw
- Parameters
CEOS_leader – (input) CEOS SAR leader file (example: lea_01.001)
BAND_META – (input) BAND_META.txt, additional RISAT system parameters for the scene (format keywork=value)
SLC_par – (output) ISP SLC image parameter file (example: YYYYMMDD.grd.par)
CEOS_image – (input) CEOS SLC image file (example: dat_01.001)
SLC – (output) SLC data with file and line headers removed (enter - for none: example: YYYYMMDD.grd)
line_dir –
- set output image line direction (enter - for default):
0: used value derived from CEOS leader file
1: retain input data line direction (default)
-1: reverse input data line direction
pix_dir –
- set output pixel direction (enter - for default):
0: used value derived from CEOS leader file
1: retain input data pixel direction (default)
-1: reverse input data pixel direction
cal_flg –
- calibration flag (enter - for default):
0: do not apply radiometric calibration
1: apply radiometric calibration including KdB and incidence angle correction (default)
KdB – calibration constant (dB) (enter - to use value in the CEOS leader)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RSAT2_SG
(product_XML, lut_XML, GeoTIFF, polarization, GRD_par, GRD, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC parameter and ground range image files for Radarsat 2 SGF/SGX dataCopyright 2018, Gamma Remote Sensing, v1.9 7-Feb-2018 awi/cw/cm
- Parameters
product_XML – (input) Radarsat-2 product annotation XML file (product.xml)
lut_XML – (input) Radarsat-2 calibration XML file (lutSigma.xml), use - for no calibration
GeoTIFF – (input) image data file in GeoTIFF format (imagery_PP.tif)
polarization – (input) image polarization: HH, VV, HV, VH
GRD_par – (output) ISP GRD parameter file (example: yyyymmdd_PP.grd.par)
GRD – (output) float GRD data file (example: yyyymmdd_pp.grd)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RSAT2_SLC
(product_XML, lut_XML, GeoTIFF, polarization, SLC_par, SLC, logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC parameter and image files for Radarsat 2 SLC data from GeoTIFFCopyright 2018, Gamma Remote Sensing, v2.6 7-Feb-2018 awi/clw/cm
- Parameters
product_XML – (input) Radarsat-2 product annotation XML file (product.xml)
lut_XML – (input) Radarsat-2 calibration XML file (lutSigma.xml), use - for no calibration
GeoTIFF – (input) image data file in GeoTIFF format (imagery_PP.tif)
polarization – (input) image polarization: HH, VV, HV, VH
SLC_par – (output) ISP SLC parameter file (example: yyyymmdd_pp.slc.par)
SLC – (output) SLC data file (example: yyyymmdd_pp.slc)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RSAT_SCW
(CEOS_leader, CEOS_trailer, CEOS_data, GRD_par, GRD, sc_dB='-', dt='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for SCANSAR Wide Swath DataCopyright 2012, Gamma Remote Sensing, v2.0 14-Feb-2012 clw
- Parameters
CEOS_leader – (input) CEOS SAR leader file
CEOS_trailer – (input) CEOS SAR trailer file
CEOS_data – (input) CEOS data file binary)
GRD_par – (output) ISP ground range image parameter file (example <orbit>.mli.par)
GRD – (output) ISP ground range image (example <orbit>.mli) (enter - for none, float)
sc_dB – intensity scale factor in dB (enter - for default: 0.00)
dt – azimuth image time offset (s) (enter - for default = 0.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RSAT_SGF
(CEOS_leader, CEOS_data, GRD_par, GRD, sc_dB='-', dt='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for RSI/Atlantis Radarsat SGF (ground range) and SCANSAR SCW16 dataCopyright 2012, Gamma Remote Sensing, v2.2 14-Feb-2012 clw
- Parameters
CEOS_leader – (input) CEOS leader file (RSI SGF or SCW16 products, LEA_01.001)
CEOS_data – (input) CEOS data file (RSI SGF or SCW16 products, DAT_01.001)
GRD_par – (output) ISP ground range image parameter file (example <orbit>.mli.par)
GRD – (output) ISP ground range image (example <orbit>.grd.par) (enter - for none, float)
sc_dB – intensity scale factor in dB (enter - for default: 0.00)
dt – azimuth image time offset (s) (enter - for default = 0.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RSAT_SLC
(CEOS_leader, SLC_par, CEOS_data, SLC='-', sc_dB='-', dt='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for RSI/Atlantis/ASF processed Radarsat SLC dataCopyright 2012, Gamma Remote Sensing, v4.0 5-Sep-2012 clw
- Parameters
CEOS_leader – (input) CEOS SAR leader file (example: lea_01.001)
SLC_par – (output) ISP SLC parameter file (example: <date>.slc.par)
CEOS_data – (input) CEOS data file (example: dat_01.001)
SLC – (output) SLC data with file and line headers removed (example: <date>.slc)
sc_dB – intensity scale factor in dB (enter - for default: 60.00)
dt – azimuth image time offset (s) (enter - for default = 0.0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_RSI_ERS
(CEOS_SAR_leader, SLC_par, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP parameter file for RSI processed ERS SLC dataCopyright 2003, Gamma Remote Sensing, v1.7 4-Aug-2003 clw/uw
- Parameters
CEOS_SAR_leader – (input) ERS CEOS SAR leader file
SLC_par – (output) ISP SLC parameter file (example <orbit>.slc.par)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_S1_GRD
(GeoTIFF, annotation_XML, calibration_XML, noise_XML, MLI_par, MLI, GRD_par='-', GRD='-', eflg='-', rps='-', noise_pwr='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate MLI and GRD images and parameter files from a Sentinel-1 GRD productCopyright 2018, Gamma Remote Sensing, v3.2 30-Apr-2018 awi/clw/ts/cm
- Parameters
GeoTIFF – (input) image data file in GeoTIFF format (enter - for none, *.tiff)
annotation_XML – (input) Sentinel-1 L1 XML annotation file
calibration_XML – (input) Sentinel-1 L1 radiometric calibration XML file (enter - for no radiometric calibration)
noise_XML – (input) Sentinel-1 L1 noise XML file (enter - to not subtract thermal noise power level)
MLI_par – (output) MLI parameter file (example: yyyymmdd_pp.mli.par)
MLI – (output) MLI data file in slant range geometry (example: yyyymmdd_pp.mli, enter - for none)
GRD_par – (output) GRD parameter file (example: yyyymmdd_pp.grd.par, enter - for none)
GRD – (output) GRD data file (example: yyyymmdd_pp.grd, enter - for none)
eflg –
- GR-SR grid extrapolation flag:
0: no extrapolation of the GR-SR grid beyond the grid boundaries
1: permit extrapolation of the GR-SR grid to cover the entire image (default)
NOTE: extrapolation of the GR-SR grid may introduce geocoding errors
rps – slant range pixel spacing (m) (enter - for default: calculated from ground-range parameters)
noise_pwr –
- noise intensity for each MLI sample in slant range using data from noise_XML
NOTE: when the noise_pwr file is specified, noise power correction will NOT be applied to the MLI data values
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_S1_SLC
(GeoTIFF, annotation_XML, calibration_XML, noise_XML, SLC_par, SLC, TOPS_par='-', dtype='-', sc_dB='-', noise_pwr='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC parameter and image files for Sentinel-1 SLC dataCopyright 2018, Gamma Remote Sensing, v4.0 30-Apr-2018 awi/clw/cm
- Parameters
GeoTIFF – (input) image data file in GeoTIFF format (enter - for none, *.tiff)
annotation_XML – (input) Sentinel-1 L1 XML annotation file
calibration_XML – (input) Sentinel-1 L1 radiometric calibration XML file (enter - for no radiometric calibration)
noise_XML – (input) Sentinel-1 L1 noise XML file (enter - to not subtract thermal noise power level)
SLC_par – (output) ISP SLC parameter file (example: yyyymmdd_iw1_vv.slc.par)
SLC – (output) SLC data file (enter - for none, example: yyyymmdd_iw1_vv.slc)
TOPS_par – (output) SLC burst annotation file, TOPS and EW SLC data only (enter - for none, example: yyyymmdd_iw1_vv.tops_par)
dtype –
- output data type:
0: FCOMPLEX (default)
1: SCOMPLEX
sc_dB – scale factor for FCOMPLEX -> SCOMPLEX, (enter - for default: HH,VV (dB): 60.0000, VH,HV: 70.0000)
noise_pwr –
- noise intensity for each SLC sample in slant range using data from noise_XML
NOTE: when the noise_pwr file is specified, noise power will NOT be subtracted from the image data values
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_SIRC
(CEOS_leader, SLC_par, UTC_MET='-', logpath=None, outdir=None, shellscript=None)[source]¶ - ISP SLC parameter file from SIR-C CEOS leader fileCopyright 2009, Gamma Remote Sensing, v2.5 30-Oct-2009 clw/uw
- Parameters
CEOS_leader – (input) JPL SIR-C CEOS leader file
SLC_par – (output) ISP SLC parameter file
UTC_MET –
- time reference for state vectors:
MET (Mission Elapsed Time) or UTC (default=UTC)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_TX_GRD
(annotation_XML, GeoTIFF, GRD_par, GRD, pol='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate ground range image and image parameter file for Terrasar-X MGD data in GeoTIFF formatCopyright 2014, Gamma Remote Sensing, v1.3 17-Oct awi/clw
- Parameters
annotation_XML – (input) Terrasar-X product annotation XML file
GeoTIFF –
- (input) image data file in geotiff format
NOTE: make sure the data set contains the selected polarisation)
GRD_par – ISP ground range image parameter file (example: yyyymmdd.grd.par
GRD – (output) calibrated ground range data file (example: yyyymmdd.grd)
pol – polarisation: HH, HV, VH, VV (default: first polarisation found in the annotation_XML)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_TX_SLC
(annotation_XML, COSAR, SLC_par, SLC, pol='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC parameter file and SLC image from a Terrasar-X SSC data setCopyright 2017, Gamma Remote Sensing, v2.3 7-Mar-2017 awi/clw
- Parameters
annotation_XML – (input) TerraSAR-X product annotation XML file
COSAR – (input) COSAR SSC stripmap or spotlight mode SLC data file
SLC_par – (output) ISP SLC parameter file (example: yyyymmdd.slc.par)
SLC – (output) SLC data file, example: yyyymmdd.slc (enter - for none, SLC output will not be produced)
pol – polarisation HH, HV, VH, VV (default: first polarisation found in the annotation_XML)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_TX_ScanSAR
(annot_XML, swath, SLC_par, SLC, TOPS_par, bwflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate SLC, SLC_par and TOPS_par from a Terrasar-X ScanSAR data setCopyright 2018, Gamma Remote Sensing, v1.6 12-Feb-2018 clw/cm/awi
- Parameters
annot_XML –
- (input) TerraSAR-X ScanSAR product annotation XML file including path
NOTE: The path to the image products is determined from the path to the XML annotation
swath –
- number specifying the desired ScanSAR swath (1 -> maximum number of swaths (4 or 6))
NOTE: The image product name is specified in the XML file
SLC_par – (output) ISP SLC parameter file (example: yyyymmdd.slc.par)
SLC – (output) SLC ScanSAR data file, example: yyyymmdd.slc (enter - for none, SLC output will not be produced)
TOPS_par – (output) SLC ScanSAR burst annotation file (example: yyyymmdd_s1.tops_par
bwflg –
- burst window flag:
0: use first and last annotation line values specified in the annot_XML
1: extend first and last valid line to include all data lines (default)
NOTE: While TSX ScanSAR data are not acquired in TOPS mode, the same data structure can be used for burst annotation
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
par_UAVSAR_SLC
(ann, SLC_MLI_par, image_type, image_format, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP image parameter file from UAVSAR annotation file (ann) for SLC and MLC productsCopyright 2014, Gamma Remote Sensing, v1.3 20-Aug-2014 clw
- Parameters
ann – (input) UAVSAR annotation file (*ann.txt)
SLC_MLI_par – (output) ISP image parameter file
image_type –
- image type flag
0: SLC (slc) in slant range coordinates
1: MLC (mlc) in slant range coordinates HHHH*, VVVV*, HVHV* are FLOAT format HHHV*, HHVV*, HVVV* are FCOMPLEX format
image_format –
- image data format flag
0: FCOMPLEX (pairs of 4-byte float (re,im))
2: FLOAT (4-bytes/value)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ph_slope_base
(int_in, SLC_par, OFF_par, base, int_out, int_type='-', inverse='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Subtract/add interferogram flat-Earth phase trend as estimated from initial baselineCopyright 2006, Gamma Remote Sensing, v4.4 3-Nov-2006 clw
- Parameters
int_in – (input) interferogram (FCOMPLEX) or unwrapped phase (FLOAT) (unflattened)
SLC_par – (input) ISP parameter file for the reference SLC
OFF_par – (input) ISP offset/interferogram parameter file
base – (input) baseline file
int_out – (output) interferogram (FCOMPLEX) or unwrapped phase (FLOAT) with phase trend subtracted/added
int_type – interferogram type: 0=unwrapped phase, 1=complex interf. (default=1)
inverse – subtract/add inversion flag (0=subtract phase ramp, 1=add phase ramp (default=0)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
phase_slope
(interf, slopes, width, win_sz='-', thres='-', xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate interferogram phase slopes in range and azimuthCopyright 2011, Gamma Remote Sensing, v1.3 19-Apr-2011 clw/uw
- Parameters
interf – (input) interferogram (fcomplex)
slopes – (output) range and azimuth phase slopes (fcomplex)
width – number of samples/row
win_sz – size of region used for slopes determination (default = 5)
thres – correlation threshold for accepting slope estimates 0.0 -> 1.0 (default=.4)
xmin – starting range pixel offset (default = 0)
xmax – last range pixel offset (default = width-1)
ymin – starting azimuth row offset (default = 0)
ymax – last azimuth row offset (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ptarg_SLC
(SLC_par, SLC, r_samp, az_samp, ptr_image, r_plot, az_plot, ptr_par='-', osf='-', win='-', pltflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Point target response analysis and interpolation for SLC imagesCopyright 2016, Gamma Remote Sensing, v1.9 19-Feb-2016 clw
- Parameters
SLC_par – (input) SLC image parameter file
SLC – (input) SLC image in FCOMPLEX or SCOMPLEX format
r_samp – point target range sample number
az_samp – point target azimuth line number
ptr_image – (output) oversampled point target image (fcomplex, 1024x1024 samples), with and without phase gradient
r_plot – (output) range point target response plot data (text format)
az_plot – (output) azimuth point target response plot data (text format)
ptr_par – (output) measured point target parameters (text format)
osf – image over-sampling factor, 2, 4, 8, 16, 32, 64 (enter - for default: 16)
win – maximum search window offset (samples) (enter - for default: 1)
pltflg –
- plotting mode flag:
0: none
1: output plots in PNG format (default)
2: screen output
3: output plots in PDF format
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ptarg_cal_MLI
(MLI_par, MLI, r_samp, az_samp, psigma, c_r_samp, c_az_samp, ptr_image, r_plot, az_plot, pcal, osf='-', win='-', pltflg='-', psz='-', csz='-', theta_inc='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Point target analysis and radiometric calibration of slant-range and ground-range (GRD) imagesCopyright 2016, Gamma Remote Sensing, v2.6 19-Feb-2016 clw
- Parameters
MLI_par – (input) slant-range or ground-range image parameter file for detected intensity data
MLI – (input) ground-range or slant range detected image in FLOAT format
r_samp – point target range sample number, target region size is 16x16
az_samp – point target azimuth line number, target region size is 16x16
psigma – radar cross-section of the calibration target in m**2
c_r_samp – clutter region center range sample number, clutter region size is 16x16
c_az_samp – clutter region center azimuth line number, clutter region size is 16x16
ptr_image – (output) oversampled point target image, with and without phase gradient, nominal width: 256
r_plot – (output) range point target response plot data (text format)
az_plot – (output) azimuth point target response plot data (text format)
pcal – (output) measured point target parameters and radiometric calibration factor (text format)
osf – image over-sampling factor, 2, 4, 8, 16, 32, 64 (enter - for default: 16)
win – maximum search window offset (samples) (enter - for default: 1)
pltflg –
- plotting mode flag:
0: none
1: output plots in PNG format (default)
2: screen output
3: output plots in PDF format
psz – point target region size (samples) (enter - for default: 16)
csz – clutter region size (samples) (enter - for default: 16)
theta_inc – incidence angle required for calibration of terrain corrrected RISAT-1 images
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
ptarg_cal_SLC
(SLC_par, SLC, r_samp, az_samp, psigma, c_r_samp, c_az_samp, ptr_image, r_plot, az_plot, pcal, osf='-', win='-', pltflg='-', psz='-', csz='-', c_image='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Point target analysis and radiometric calibration of SLC imagesCopyright 2016, Gamma Remote Sensing, v2.4 19-Feb-2016 clw
- Parameters
SLC_par – (input) SLC image parameter file
SLC – (input) SLC image in FCOMPLEX or SCOMPLEX format
r_samp – point target range sample number, target region size is 16x16
az_samp – point target azimuth line number, target region size is 16x16
psigma – radar cross-section of the calibration target in m**2
c_r_samp – clutter region center range sample number, clutter region size is 16x16
c_az_samp – clutter region center azimuth line number, clutter region size is 16x16
ptr_image – (output) oversampled point target image, with and without phase gradient, nominal width: 256
r_plot – (output) range point target response plot data (text format)
az_plot – (output) azimuth point target response plot data (text format)
pcal – (output) measured point target parameters and radiometric calibration factor (text format)
osf – image over-sampling factor, 2, 4, 8, 16, 32, 64 (enter - for default: 16)
win – maximum search window offset (samples) (enter - for default: 1)
pltflg –
- plotting mode flag:
0: none
1: output plots in PNG format (default)
2: screen output
3: output plots in PDF format
psz – point target region size (samples) (enter - for default: 16)
csz – clutter region size (samples) (enter - for default: 16)
c_image – (output) clutter region image (FCOMPLEX format)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
pwr2ras
(MLI_tab, width, scale='-', exp='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate raster images of MLI image filesCopyright 2012, Gamma Remote Sensing, v1.2 27-Nov-2012 clw
- Parameters
MLI_tab – (input) list of mli intensity images (float)
width – image width of input data files
scale – image display scale factor (enter - for default, default: 0.9)
exp – image display exponent (default: 0.35)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
radcal_MLI
(MLI, MLI_par, OFF_par, CMLI, antenna='-', rloss_flag='-', ant_flag='-', refarea_flag='-', sc_dB='-', K_dB='-', pix_area='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Radiometric calibration for multi-look intensity (MLI) dataCopyright 2016, Gamma Remote Sensing, v2.0 9-Nov-2016 uw/clw/of
- Parameters
MLI – (input) MLI image (float)
MLI_par – (input) SLC parameter file of input MLI image
OFF_par – (input) ISP offset/interferogram parameter file (enter - for images in MLI geometry)
CMLI – (output) radiometrically calibrated output MLI (float)
antenna – (input) 1-way antenna gain pattern file or - if not provided
rloss_flag –
- range spreading loss correction:
0: no correction (default)
1: apply r^3 correction (all modes except ASAR APS)
2: apply r^4 correction (used only for ASAR APS mode)
-1: undo r^3 correction
-2: undo r^4 correction)
ant_flag –
- antenna pattern correction:
0: no correction (default)
1: apply antenna pattern correction
-1: undo antenna pattern correction)
refarea_flag –
- reference pixel area correction:
0: no pixel area correction (default)
1: calculate sigma0, scale area by sin(inc_ang)/sin(ref_inc_ang)
2: calculate gamma0, scale area by sin(inc_ang)/(cos(inc_ang)*sin(ref_inc_ang)
-1: undo sigma0 area scaling factor
-2: undo gamma0 area scaling factor
sc_dB – scale factor in dB (default: 0.0)
K_dB – calibration factor in dB (default: -(value from MLI_par))
pix_area – (output) ellipsoid-based ground range sigma0 or gamma0 pixel reference area (float)
refarea_flag – 1 or -1: sigma0 ref. area
refarea_flag – 2 or -2: gamma0 ref. area
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
radcal_PRI
(PRI, PRI_par, GRD, GRD_par, K_dB='-', inc_ref='-', roff='-', nr='-', loff='-', nl='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Convert ESA processed short integer format PRI to radiometrically calibrated GRD image (float)Copyright 2016, Gamma Remote Sensing, v1.5 5-Mar-2016 uw/clw
- Parameters
PRI – (input) PRI ground-range image (short integer, sqrt(backscat. intensity)
PRI_par – (input) SLC parameter file of input PRI ground-range image (yyyymmdd.pri.par)
GRD – (output) calibrated ground-range image (float, backscat. intensity)
GRD_par – (output) ISP image parameter file of output calibrated ground-range image (yyyymmdd.grd.par)
K_dB –
- calibration factor in decibels (default: 59.75 dB)
ERS1 (D-Paf,ESRIN): 58.24 dB, ERS2 (D-Paf,ESRIN,I-Paf,UK-Paf after 1997): 59.75 dB ENVISAT ASAR: 55.0 dB (all modes) for details see product specifications and ESA publications.
inc_ref –
- reference incidence angle in deg. (default: 23.0 deg.)
ENVISAT ASAR: 90.0 deg. (all modes)
roff – offset to starting range sample (default: 0)
nr – number of range samples (default: 0, to end of line)
loff – offset to starting line (default: 0, 1 header line in the input file is assumed for ERS)
nl – number of lines to copy (default: 0, to end of file)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
radcal_SLC
(SLC, SLC_par, CSLC, CSLC_par, fcase='-', antenna='-', rloss_flag='-', ant_flag='-', refarea_flag='-', sc_dB='-', K_dB='-', pix_area='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Radiometric calibration of SLC dataCopyright 2016, Gamma Remote Sensing, v2.4 30-Dec-2017 uw/clw/of
- Parameters
SLC – (input) SLC (fcomplex or scomplex)
SLC_par – (input) SLC parameter file of input SLC
CSLC – (output) radiometrically calibrated SLC (fcomplex or scomplex)
CSLC_par – (output) SLC parameter file of output calibrated SLC
fcase –
- format case (default = 1)
1: fcomplex –> fcomplex (pairs of float)
2: fcomplex –> scomplex (pairs of short integer)
3: scomplex –> fcomplex
4: scomplex –> scomplex
antenna – 1-way antenna gain pattern file or - (if not provided)
rloss_flag –
- range spreading loss correction:
0: no correction (default)
1: apply r^3 correction (all modes except ASAR APS)
2: apply r^4 correction (used only for ASAR APS mode)
-1: undo r^3 correction
-2: undo r^4 correction)
ant_flag –
- antenna pattern correction:
0: no correction (default)
1: apply antenna pattern correction
-1: undo antenna pattern correction)
refarea_flag –
- reference pixel area correction:
0: no pixel area correction (default)
1: calculate sigma0, scale area by sin(inc_ang)/sin(ref_inc_ang)
2: calculate gamma0, scale area by sin(inc_ang)/(cos(inc_ang)*sin(ref_inc_ang)
-1: undo sigma0 area scaling factor
-2: undo gamma0 area scaling factor
sc_dB – scale factor in dB (default: 0.0)
K_dB – calibration factor in dB (default: -(value from SLC_par) )
pix_area – (output) ellipsoid-based ground range sigma0 or gamma0 pixel reference area (float)
refarea_flag – 1 or -1: sigma0 ref. area
refarea_flag – 2 or -2: gamma0 ref. area
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
radcal_pwr_stat
(SLC_tab, SLC_tab_cal, plist, MSR_cal, PWR_cal, roff='-', loff='-', nr='-', nl='-', plist_out='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate calibrated SLC image files using point targets determined from the Mean/Sigma Ratio and IntensityCopyright 2018, Gamma Remote Sensing, v1.4 25-Apr-2018 clw/uw/cm
- Parameters
SLC_tab – (input) two column list of the SLC filenames and SLC parameter filenames of the uncalibrated SLC images
SLC_tab_cal – (input) two column list of the SLC filenames and SLC parameter filenames of the calibrated SLC images (enter - for none)
plist – (input) point list for the point to use for calibraton (int, enter - to use the data to determine the calibration points)
MSR_cal – mean/sigma ratio for point target selection for relative calibration between scenes: 1.500
PWR_cal – intensity threshold ratio for point target selection for relative calibration between scenes: 1.000
roff – offset to starting range of section to analyze (default -: 0)
loff – offset to starting line of section to analyze (default -: 0)
nr – number of range pixels to analyze (default -: to end of line)
nl – number of azimuth lines to analyze (default -: to end of file)
plist_out – point list of points used to determine calibration using MSR_cal and PWR_cal thresholds
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
rascc_mask
(cc, pwr, width, start_cc='-', start_pwr='-', nlines='-', pixavr='-', pixavaz='-', cc_thres='-', pwr_thres='-', cc_min='-', cc_max='-', scale='-', exp='-', LR='-', rasf='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Generate phase unwrapping validity mask using correlation and intensityCopyright 2016, Gamma Remote Sensing, v2.0 12-Sep-2016 clw/uw
- Parameters
cc – (input)interferometric correlation image (float)
pwr – (input)intensity image (float, enter - if not available)
width – number of samples/row
start_cc – starting line of coherence image (default: 1)
start_pwr – starting line of intensity image (default: 1)
nlines – number of lines to display (default=0: to end of file)
pixavr – number of pixels to average in range (default: 1)
pixavaz – number of pixels to average in azimuth (default: 1)
cc_thres – coherence threshold for masking, pixels with cc < cc_thres are set to 0 (default: 0.0)
pwr_thres – relative intensity threshold for masking, pixels with intensity < pwr_thres * average intensity are set to 0 (default: 0)
cc_min – minimum coherence value used for color display (default: 0.1)
cc_max – maximum coherence value used for color display (default: 0.9)
scale – intensity display scale factor (default: 1.)
exp – intensity display exponent (default: .35)
LR – left/right mirror image flag, (1: normal (default), -1: mirror image)
rasf –
- (output) image filename, extension determines the format, enter - for default: *.ras
*.bmp BMP format *.ras Sun raster format *.tif TIFF format
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
rascc_mask_thinning
(ras_in, in_file, width, ras_out, nmax='-', thresholds='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Adaptive sampling reduction for phase unwrapping validity maskCopyright 2015, Gamma Remote Sensing, v1.5 5-Dec-2015 uw/clw
- Parameters
ras_in – (input) validity mask (SUN/BMP/TIFF raster format 8-bit image)
in_file – (input) file used for adaptive sampling reduction, e.g. correlation coefficient (float)
width – number of samples/row of in_file
ras_out – (output) validity mask with reduced sampling (8-bit SUN rasterfile or BMP format image)
nmax – number of sampling reduction runs (default: 3)
thresholds – a list of thresholds sorted from smallest to largest scale sampling reduction
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
res_map
(hgt, gr, data, SLC_par, OFF_par, res_hgt, res_data, nr='-', naz='-', azps_res='-', loff='-', nlines='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Slant range to ground range transformation based on interferometric ground-rangeCopyright 2008, Gamma Remote Sensing, v2.3 5-Sep-2008 clw/uw
- Parameters
hgt – (input) height file in slant range geometry
gr – (input) ground range file in slant range geometry
data – (input) data file in slant range geometry (float) (intensity *.pwr or correlation *.cc)
SLC_par – (input) ISP parameter file of reference SLC
OFF_par – (input) offset/interferogram processing parameters
res_hgt – (output) resampled height file in ground range geometry
res_data – (output) resampled data file in ground range geometry
nr – number of range samples for L.S. estimate (default=7, must be odd)
naz – number of azimuth samples for L.S. extimate (default=7, must be odd)
azps_res – azimuth output map sample spacing in meters (default=azimuth spacing)
loff – offset to starting line for height calculations (default=0)
nlines – number of lines to calculate (default=to end of file)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
residue
(int, flag, width, xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Determine interferometric phase unwrapping residuesCopyright 2014, Gamma Remote Sensing, v2.6 14-Jan-2014 clw/uw
- Parameters
int – (input) interferogram (fcomplex)
flag – (input) flag file (unsigned char)
width – number of samples/row
xmin – offset to starting range pixel(default = 0)
xmax – offset last range pixel (default = width-1)
ymin – offset to starting azimuth row (default = 0)
ymax – offset to last azimuth row (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
residue_cc
(int, flag, width, xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Determine interferometric phase unwrapping residues considering low coherence regionsCopyright 2014, Gamma Remote Sensing, v2.6 20-Jan-2014 clw/uw/ts
- Parameters
int – (input) interferogram (fcomplex)
flag – (input) flag file (unsigned char)
width – number of samples/row
xmin – offset to starting range pixel(default = 0)
xmax – offset last range pixel (default = width-1)
ymin – offset to starting azimuth row (default = 0)
ymax – offset to last azimuth row (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
run_all
(list, command, logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
list – (input) list file (ascii)
command –
- command to use
(example 1: ‘ls -l $1.slc’) (example 2: ‘JERS_PROC JERS-1_720.par $1 2 6 … 8192’
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
sbi_filt
(SLC_1, SLC1_par, SLC2R_par, SLCf, SLCf_par, SLCb, SLCb_par, norm_sq, iwflg='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Azimuth filtering of SLC data to support split-beam interferometry to measure azimuth offsetsCopyright 2016, Gamma Remote Sensing, v1.2 clw 5-Mar-2016
- Parameters
SLC_1 – (input) SLC image (SCOMPLEX or FCOMPLEX format)
SLC1_par – (input) SLC image parameter file
SLC2R_par –
- (input) SLC2 ISP image parameter file for the co-registered image of the interferometric pair,
used to determine azimuth common-band for each output SLC (enter - for none)
SLCf – (output) SLC image (forward-looking, FCOMPLEX format)
SLCf_par – (output) SLC parameter file (forward-looking)
SLCb – (output) SLC image (backward-looking, FCOMPLEX format)
SLCb_par – (output) SLC parameter file (backward-looking)
norm_sq – squint between beams as a fraction of the azimuth spectrum width (default: 0.5)
iwflg –
- inverse weighting flag:
0: no compensation for azimuth spectrum weighting
1: compensate for the azimuth spectrum weighting (default)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
sbi_offset
(sbi_unw, SLCf_par, SLCb_par, OFF_par, az_offset, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate azimuth offsets from unwrapped split-beam interferogramCopyright 2011, Gamma Remote Sensing, v1.0 25-Nov-2011
- Parameters
sbi_unw – (input) unwrapped phase of split-beam interferogram (float)
SLCf_par – (input) reference SLC parameter file (forward-looking)
SLCb_par – (input) reference SLC parameter file (backward-looking)
OFF_par – (input) offset parameter file
az_offset – (output) azimuth offsets (m)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
slant_range
(SLC_par, slr, logpath=None, outdir=None, shellscript=None)[source]¶ - Calculate slant range for every range sampleCopyright 2013, Gamma Remote Sensing v1.1 28-Aug-2013
- Parameters
SLC_par – (input) SLC or MLI image parameter file
slr – (output) slant range for every sample in the image (float)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
split_WB
(data_in, data_par_in, data_tab, dtype, logpath=None, outdir=None, shellscript=None)[source]¶ - ISP: Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/split_WB.cCopyright 2018, Gamma Remote Sensing, v1.3 25-Apr-2018 clw/cmSplit WB mosaic image into individual beams using ISP parameter files
- Parameters
data_in – (input) input mosaicked data in slant-range geometry (e.g. DEM data)
data_par_in – (input) ISP image parameter file for data in the input mosaic
data_tab – (input) 2 column list of output data filenames and ISP image parameter files for each beam in the mosaic (text)
dtype –
- (input) input data type:
0: FLOAT
1: FCOMPLEX
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
subtract_phase
(interf_in, phase_file, interf_out, width, factor='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Land Application Tools: Program /usr/local/GAMMA_SOFTWARE-20180703/ISP/bin/subtract_phase.cCopyright 2001, Gamma Remote Sensing, v3.1 23-Jan-2001 uw/clwsubtract scaled phase image from a complex interferogram
- Parameters
interf_in – (input) input interferogram (fcomplex format)
phase_file – (input) unwrapped interferometric phase (float)
interf_out – (output) output interferogram (input interferogram - scaled phase) (fcomplex)
width – number of samples/line
factor – constant scale factor for input phase data [default=1.0]
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
tree_cc
(flag, width, mbl='-', xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Phase unwrapping tree generation with low correlation search (modified ARW algorithm)Copyright 2014, Gamma Remote Sensing, v2.9 20-Jan-2014 clw/uw
- Parameters
flag – (input) phase unwrapping flag file
width – number of samples/row
mbl – maximum branch length (default=32, maximum=64)
xmin – starting range pixel offset (default = 0)
xmax – last range pixel offset (default = width-1)
ymin – starting azimuth row, relative to start (default = 0)
ymax – last azimuth row, relative to start (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
tree_gzw
(flag, width, mbl='-', xmin='-', xmax='-', ymin='-', ymax='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Phase unwrapping tree generation (GZW algorithm)Copyright 2008, Gamma Remote Sensing, v3.6 5-Sep-2008 clw/uw
- Parameters
flag – (input) phase unwrapping flag file
width – number of samples/row
mbl – maximum branch length (default=32)
xmin – starting range pixel offset (default = 0)
xmax – last range pixel offset (default = width-1)
ymin – starting azimuth row, relative to start (default = 0)
ymax – last azimuth row, relative to start (default = nlines-1)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
unw_correction_filt
(unw_in, unw_out, width, fsize='-', thresh1='-', thresh2='-', iterations='-', cleaning='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
unw_in – (input) unwrapped phase file to correct (float)
unw_out – (output) corrected unwrapped phase file (float)
width – number of range samples per line
fsize – maximum filter radius in pixels (default = 5)
thresh1 – upper threshold for negative phase differences (default = -3.0)
thresh2 – lower threshold for positive phase differences (default = 3.0)
iterations – number of iterations to run (default = 1)
cleaning –
- cleaning flag indicating if intermediary files are deleted (default = 1: yes, 0: no)
The difference between the unfiltered and spatially filtered phase (using fspf) is used to determine an correct phase unwrapping ambiguity errors
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
unw_correction_poly
(unw_in, unw_out, width, poly, flag, max_iter='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Parameters
unw_in – (input) unwrapped phase file to correct (float)
unw_out – (output) corrected unwrapped phase file (float)
width – number of range samples per line
poly – (input) polygon file (text)
flag – ambiguity corrected flag (1: add 2PI; -1: subtract 2PI)
max_iter –
- maximum number of iterations done (default = 1)
(iterations are used (a) if the ambiguity to correct is not 2PI but a multiple of 2PI and (b) if the ambiguity error is in an area with a significant phase slope)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
-
pyroSAR.gamma.parser_demo.
unw_model
(interf, unw_model, unw, width, xinit='-', yinit='-', ref_ph='-', width_model='-', logpath=None, outdir=None, shellscript=None)[source]¶ - Phase unwrapping using a model of the unwrapped phaseCopyright 2008, Gamma Remote Sensing, v1.6 5-Sep-2008 clw/uw
- Parameters
interf – (input) complex interferogram
unw_model – (input) approximate unwrapped phase model (float)
unw – (output) unwrapped phase (float)
width – number of samples/row of the interferogram
xinit – offset to phase reference location in range (col)
yinit – offset to phase reference location in azimuth (row)
ref_ph – reference point phase (radians) (enter - for phase at the reference point )
width_model – number of samples/row of the unwrapped phase model (default: interferogram width)
logpath (str or None) – a directory to write command logfiles to
outdir (str or None) – the directory to execute the command in
shellscript (str or None) – a file to write the Gamma commands to in shell format
Sentinel-1 Tools¶
interface for management of S1 Orbit State Vector (OSV) files |
|
Mask out Sentinel-1 image border noise. |
-
class
pyroSAR.S1.
OSV
(osvdir=None)[source]¶ Bases:
object
interface for management of S1 Orbit State Vector (OSV) files
input is a directory which is supposed to contain, or already contains, OSV files. Two subdirectories are expected and created otherwise: one for Precise Orbit Ephemerides (POE) named POEORB and one for Restituted Orbit (RES) files named RESORB
Using method
match()
the corresponding POE (priority) or RES file is returned for a timestamp. Timestamps are always handled in the format YYYYmmddTHHMMSS.- Parameters
osvdir (str) – the directory to write the orbit files to
-
catch
(sensor, osvtype='POE', start=None, stop=None)[source]¶ check a server for files
- Parameters
- Returns
the URLs of the remote OSV files
- Return type
-
getLocals
(osvtype='POE')[source]¶ get a list of local files of specific type
- Parameters
osvtype ({'POE', 'RES'}) – the type of orbit files required
- Returns
a selection of local OSV files
- Return type
-
match
(sensor, timestamp, osvtype='POE')[source]¶ return the corresponding OSV file for the provided sensor and time stamp. The file returned is one which covers the acquisition time and, if multiple exist, the one which was published last. In case a list of options is provided as osvtype, the file of higher accuracy (i.e. POE over RES) is returned.
- Parameters
- Returns
the best matching orbit file (overlapping time plus latest publication date)
- Return type
-
maxdate
(osvtype='POE', datetype='stop')[source]¶ return the latest date of locally existing POE/RES files
- Parameters
osvtype ({'POE', 'RES'}) – the type of orbit files required
datetype ({'publish', 'start', 'stop'}) – one of three possible date types contained in the OSV filename
- Returns
a timestamp in format YYYYmmddTHHMMSS
- Return type
-
mindate
(osvtype='POE', datetype='start')[source]¶ return the earliest date of locally existing POE/RES files
- Parameters
osvtype ({'POE', 'RES'}) – the type of orbit files required
datetype ({'publish', 'start', 'stop'}) – one of three possible date types contained in the OSV filename
- Returns
a timestamp in format YYYYmmddTHHMMSS
- Return type
-
retrieve
(files, pbar=False)[source]¶ download a list of remote files into the respective subdirectories, i.e. POEORB or RESORB
-
pyroSAR.S1.
removeGRDBorderNoise
(scene, method='pyroSAR')[source]¶ Mask out Sentinel-1 image border noise. This function implements the method for removing GRD border noise as recommended by ESA and implemented in SNAP and additionally adds further refinement of the result using an image border line simplification approach. In this approach the border between valid and invalid pixels is first simplified using the method by Visvalingam and Whyatt references below. The line segments of the new border are then shifted until all pixels considered invalid before the simplification are again on one side of the line. See image below for further clarification.
- References:
‘Masking “No-value” Pixels on GRD Products generated by the Sentinel-1 ESA IPF’ (issue 2.1 Jan 29 2018); available online under https://sentinel.esa.int/web/sentinel/user-guides/sentinel-1-sar/document-library
Visvalingam, M. and Whyatt J.D. (1993): “Line Generalisation by Repeated Elimination of Points”, Cartographic J., 30 (1), 46 - 51
Auxiliary Data Tools¶
obtain all relevant DEM tiles for selected geometries |
|
create a new DEM GeoTiff file and optionally convert heights from geoid to ellipsoid |
-
pyroSAR.auxdata.
dem_autoload
(geometries, demType, vrt=None, buffer=None, username=None, password=None, product='dem')[source]¶ obtain all relevant DEM tiles for selected geometries
- Parameters
geometries (list) – a list of
spatialist.vector.Vector
geometries to obtain DEM data for; CRS must be WGS84 LatLon (EPSG 4326)demType (str) –
the type of DEM to be used; current options:
’AW3D30’ (ALOS Global Digital Surface Model “ALOS World 3D - 30m”)
’SRTM 1Sec HGT’
’SRTM 3Sec’
’TDX90m’
registration: https://geoservice.dlr.de/web/dataguide/tdm90
url: ftpes://tandemx-90m.dlr.de
vrt (str or None) – an optional GDAL VRT file created from the obtained DEM tiles
buffer (int or float) – a buffer in degrees to add around the individual geometries
username (str or None) – (optional) the user name for services requiring registration
password (str or None) – (optional) the password for the registration account
product (str) –
the sub-product to extract from the DEM product. The following options are available for the respective DEM types:
’AW3D30’
’dem’: the actual Digital Elevation Model
’msk’: mask information for each pixel (Cloud/Snow Mask, Land water and low correlation mask, Sea mask, Information of elevation dataset used for the void-filling processing)
’stk’: number of DSM-scene files which were used to produce the 5m resolution DSM
’SRTM 1Sec HGT’
’dem’: the actual Digital Elevation Model
’SRTM 3Sec’
’dem’: the actual Digital Elevation Model
’TDX90m’
’dem’: the actual Digital Elevation Model
’am2’: Amplitude Mosaic representing the minimum value
’amp’: Amplitude Mosaic representing the mean value
’com’: Consistency Mask
’cov’: Coverage Map
’hem’: Height Error Map
’lsm’: Layover and Shadow Mask, based on SRTM C-band and Globe DEM data
’wam’: Water Indication Mask
- Returns
the names of the obtained files or None if a VRT file was defined
- Return type
Examples
download all SRTM 1 arcsec DEMs overlapping with a Sentinel-1 scene and mosaic them to a single GeoTiff file
from pyroSAR import identify from pyroSAR.auxdata import dem_autoload from spatialist import gdalwarp # identify the SAR scene filename = 'S1A_IW_SLC__1SDV_20150330T170734_20150330T170801_005264_006A6C_DA69.zip' scene = identify(filename) # extract the bounding box as spatialist.Vector object bbox = scene.bbox() # download the tiles and virtually combine them in an in-memory # VRT file subsetted to the extent of the SAR scene plus a buffer of 0.01 degrees vrt = '/vsimem/srtm1.vrt' dem_autoload(geometries=[bbox], demType='SRTM 1Sec HGT', vrt=vrt, buffer=0.01) # write the final GeoTiff file outname = scene.outname_base() + 'srtm1.tif' gdalwarp(src=vrt, dst=outname, options={'format': 'GTiff'}) # alternatively use function dem_create and warp the DEM to UTM # including conversion from geoid to ellipsoid heights from pyroSAR.auxdata import dem_create outname = scene.outname_base() + 'srtm1_ellp.tif' dem_create(src=vrt, dst=outname, t_srs=32632, tr=(30, 30), geoid_convert=True, geoid='EGM96')
-
pyroSAR.auxdata.
dem_create
(src, dst, t_srs=None, tr=None, resampling_method='bilinear', geoid_convert=False, geoid='EGM96')[source]¶ create a new DEM GeoTiff file and optionally convert heights from geoid to ellipsoid
- Parameters
src (str) – the input dataset, e.g. a VRT from function
dem_autoload()
dst (str) – the output dataset
t_srs (None, int, str or osr.SpatialReference) – A target geographic reference system in WKT, EPSG, PROJ4 or OPENGIS format. See function
spatialist.auxil.crsConvert()
for details. Default (None): use the crs ofsrc
.resampling_method (str) –
the gdalwarp resampling method; See here for options.
geoid_convert (bool) – convert geoid heights?
geoid (str) –
- the geoid model to be corrected, only used if
geoid_convert == True
; current options: ’EGM96’
- the geoid model to be corrected, only used if
Datacube Tools¶
This (still experimental) module is intended to easily prepare SAR scenes processed by pyroSAR for ingestion into an Open Data Cube.
from pyroSAR.datacube_util import Product, Dataset
from pyroSAR.ancillary import find_datasets
# find pyroSAR files by metadata attributes
archive_s1 = '/.../sentinel1/GRD/processed'
scenes_s1 = find_datasets(archive_s1, sensor=('S1A', 'S1B'), acquisition_mode='IW')
# group the found files by their file basenames
# files with the same basename are considered to belong to the same dataset
grouped = groupby(scenes_s1, 'outname_base')
# define the polarization units describing the data sets
units = {'VV': 'backscatter VV', 'VH': 'backscatter VH'}
# create a new product
with Product(name='S1_GRD_index',
product_type='gamma0',
description='Gamma Naught RTC backscatter') as prod:
for dataset in grouped:
with Dataset(dataset, units=units) as ds:
# add the dataset to the product
prod.add(ds)
# parse datacube indexing YMLs from product and data set metadata
prod.export_indexing_yml(ds, 'yml_index_outdir')
# write the product YML
prod.write('yml_product')
# print the product metadata which is written to the product YML
print(prod)
-
class
pyroSAR.datacube_util.
Dataset
(filename, units='DN')[source]¶ Bases:
object
A general class describing dataset information required for creating ODC YML files
- Parameters
-
__add__
(dataset)[source]¶ override the + operator. This is intended to easily combine two Dataset objects, which were created from different files belonging to the same measurement, e.g. two GeoTiffs with one polarization each.
-
__radd__
(dataset)[source]¶ similar to
Dataset.__add__()
but for functionsum()
, e.g.sum([Dataset1, Dataset2])
-
class
pyroSAR.datacube_util.
Product
(definition=None, name=None, product_type=None, description=None)[source]¶ Bases:
object
A class for describing an ODC product definition
- Parameters
definition (str, list, None) – the source of the product definition; either an existing product YML, a list of
Dataset
objects, or None. In the latter case the product is defined using the parameters name, product_type and description.name (str) – the name of the product in the data cube
product_type (str) – the type of measurement defined in the product, e.g. gamma0
description (str) – the description of the product and its measurements
-
add
(dataset)[source]¶ Add a dataset to the abstracted product description. This first performs a check whether the dataset is compatible with the product and its already existing measurements. If a measurement in the dataset does not yet exist in the product description it is added.
- Parameters
dataset (Dataset) – the dataset whose description is to be added
-
check_integrity
(dataset, allow_new_measurements=False)[source]¶ check if a dataset is compatible with the product definition.
- Parameters
- Raises
-
export_indexing_yml
(dataset, outdir)[source]¶ Write a YML file named {
Dataset.identifier()
}_dcindex.yml, which can be used for indexing a dataset in an Open Data Cube. The file will contain information from the product and the dataset and a test is first performed to check whether the dataset matches the product definition. A unique ID is issued usinguuid.uuid4()
.
-
export_ingestion_yml
(outname, product_name, ingest_location, chunking)[source]¶ Write a YML file, which can be used for ingesting indexed datasets into an Open Data Cube.
- Parameters
outname (str) – the name of the YML file to write
product_name (str) – the name of the product in the ODC
ingest_location (str) – the location of the ingested NetCDF files
chunking (dict) – a dictionary with keys ‘x’, ‘y’ and ‘time’; determines the size of the netCDF files ingested into the datacube; e.g. {‘x’: 512, ‘y’: 512, ‘time’: 1}
-
property
measurements
¶ - Returns
a dictionary with measurement names as keys
- Return type
dict of dict
Ancillary Functions¶
This module gathers central functions and classes for general pyroSAR applications.
find pyroSAR datasets in a directory based on their metadata |
|
get the arguments of a function |
|
group a list of images by a metadata attribute |
|
function to group images by their acquisition time difference |
|
simple check whether a function takes a parameter as input |
|
compute multilooking factors to approximate a target ground range resolution |
|
Parse the name of a pyroSAR processing product and extract its metadata components as dictionary |
|
function to extract time in seconds from a file name. |
-
pyroSAR.ancillary.
find_datasets
(directory, recursive=False, **kwargs)[source]¶ find pyroSAR datasets in a directory based on their metadata
- Parameters
directory (str) – the name of the directory to be searched
recursive (bool) – search the directory recursively into subdirectories?
kwargs – Metadata attributes for filtering the scene list supplied as key=value. e.g. sensor=’S1A’. Multiple allowed options can be provided in tuples, e.g. sensor=(‘S1A’, ‘S1B’). Any types other than tuples require an exact match, e.g. proc_steps=[‘grd’, ‘mli’, ‘geo’, ‘norm’, ‘db’] will be matched only if these processing steps are contained in the product name in this exact order. The special attributes start and stop can be used for time filtering where start<=value<=stop. See function
parse_datasetname()
for further options.
- Returns
the file names found in the directory and filtered by metadata attributes
- Return type
list of str
Examples
>>> selection = find_datasets('path/to/files', sensor=('S1A', 'S1B'), polarization='VV')
-
pyroSAR.ancillary.
groupby
(images, attribute)[source]¶ group a list of images by a metadata attribute
- Parameters
images (list of str) – the names of the images to be sorted
attribute (str) – the name of the attribute used for sorting; see
parse_datasetname()
for options
- Returns
a list containing a list with image names ofr each group
- Return type
list of lists
-
pyroSAR.ancillary.
groupbyTime
(images, function, time)[source]¶ function to group images by their acquisition time difference
- Parameters
- Returns
a list of sub-lists containing the grouped images
- Return type
-
pyroSAR.ancillary.
hasarg
(func, arg)[source]¶ simple check whether a function takes a parameter as input
-
pyroSAR.ancillary.
multilook_factors
(sp_rg, sp_az, tr_rg, tr_az, geometry, incidence)[source]¶ compute multilooking factors to approximate a target ground range resolution
- Parameters
geometry (str) – the imaging geometry; either ‘SLANT_RANGE’ or ‘GROUND_RANGE’
- Returns
the multilooking factors as (rangelooks, azimuthlooks)
- Return type
-
pyroSAR.ancillary.
parse_datasetname
(name, parse_date=False)[source]¶ Parse the name of a pyroSAR processing product and extract its metadata components as dictionary
- Parameters
- Returns
the metadata attributes
- Return type
Examples
>>> meta = parse_datasetname('S1A__IW___A_20150309T173017_VV_grd_mli_geo_norm_db.tif') >>> print(sorted(meta.keys())) ['acquisition_mode', 'extensions', 'filename', 'orbit', 'outname_base', 'polarization', 'proc_steps', 'sensor', 'start']
-
pyroSAR.ancillary.
seconds
(filename)[source]¶ function to extract time in seconds from a file name. the format must follow a fixed pattern: YYYYmmddTHHMMSS Images processed with pyroSAR functionalities via module snap or gamma will contain this information.
-
pyroSAR.ancillary.
windows_fileprefix
(func, path, exc_info)[source]¶ Helper function for
shutil.rmtree()
to exceed Windows’ file name length limit of 256 characters. See here for details.- Parameters
func (function) – the function to be executed, i.e.
shutil.rmtree()
path (str) – the path to be deleted
exc_info (tuple) – execution info as returned by
sys.exc_info()
Examples
>>> import shutil >>> from pyroSAR.ancillary import windows_fileprefix >>> shutil.rmtree('/path', onerror=windows_fileprefix)