| Environments | PYTHON :: EASI :: MODELER |
| Batch Mode | Yes |
| Quick links | Description :: Parameters :: Parameter descriptions :: Details :: Acknowledgements :: References :: Related |
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| Name | Type | Length | Value range |
|---|---|---|---|
| Database ASAR file name * | String | 1 - | |
| CD Input Layer(s) * | Integer | 1 - 16 | |
| Output: Satellite CD Layers * | Integer | 1 - 16 | |
| OutputOrbit: Output satellite orbital ephemeris segment * | ORB port | 1 - 1 | |
| Output: Satellite GCP Layer: Output satellite GCP segment * | GCP port | 1 - 1 | |
| OutputARR: Output SAR-specific array segments * | ARR port | 1 - 1024 | |
| File Description | String | 0 - 1 | |
| Report | String | 0 - 192 | See parameter description |
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Database ASAR file name
Specifies the full path and file name of the ESA ENVISAT-format file with the .N1 extension.
CD Input Layer(s)
Specifies the list of channels to read from the CD.
If this parameter is not specified, all channels are read.
Output: Satellite CD Layers
Specifies the list of channels to receive the data from the CD.
For each input channel specified, an output channel must be specified.
OutputOrbit: Output satellite orbital ephemeris segment
Specifies output segment to receive the satellite orbital ephemeris data.
Output: Satellite GCP Layer: Output satellite GCP segment
Specifies output segment to receive the ground control points.
OutputARR: Output SAR-specific array segments
Specifies output segment to receive the SAR offset, gain, incident angle, and SRGR segments.
File Description
Optionally specifies a line of text that describes the file. Typically, this contains information that identifies the location of the data and the CD reference number.
Report
Specifies where to direct the generated report.
Available options are:
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CDASAR is part of the satellite orthorectification component. It reads the ASAR file format CD when satellite orthorectification is required. CDASAR automatically creates a PCIDSK file, reads the requested imagery channels from the CD, and saves the satellite path information in an ORBIT segment. The output is used in CATALYST Professional OrthoEngine.
The ESA provides access to different ASAR products. CDASAR does not support level 0 products, global monitoring mode products, wave mode products, browse products, or geocoded products. The remaining level 1 products in the image mode, alternating polarization mode, and wide swath mode are supported.
Single-look complex images such as ASA_IMS and ASA_APS do not have the antenna pattern information included within their data product. For these images, CDASAR extracts the nominal antenna pattern from the ASAR external calibration data file ASA_XCA_AX. The time-stamped file must be included with the image in the AX subdirectory, or it can be downloaded from the ESA web site (http://envisat.esa.int/handbooks/asar/CNTR6-5-3.htm).
CDASAR extracts the geographic coordinates from the CD on the scene center and on the four corner points. These extracted coordinates are stored in the ORBIT segment in the generated image.pix file. If a sufficient number of ground control points (GCPs) is unavailable, the extracted coordinates can be used as GCPs by any other routine, such as SATMODEL, to obtain an approximate sensor model calculation. To obtain an exact calculation, however, a sufficient number of GCPs must be used for each scene or a block of scenes.
CDASAR also extracts GCPs from the geolocation grid ADS, and stores them in the GCP segment. Up to 255 GCPs are extracted. If there are more GCPs in the input image, they are uniformly decimated.
The DBGC (OutputGCP) parameter receives the number of the segment that contains the GCPs.
The ORBIT (OutputOrbit) parameter receives the number of the segment that contains the orbital information. The orbital information in this segment is required for CATALYST Professional OrthoEngine.
Additional information is extracted from the input image and stored in array segments. The information is used in the downstream, SAR-specific SARBETA, SARSIGM and in the optional radiometric terrain correction step in OrthoEngine.
If the parameters required for the ORBIT segment do not exist in the input image or cannot be retrieved, CDASAR issues an error message and aborts without generating the PCIDSK file. If the parameters required for the SAR-specific process do not exist in the input image or cannot be retrieved, the generated image is created without the SAR-specific array segments.
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PCI Geomatics wishes to acknowledge the assistance of Dr. Thierry Toutin for this software.
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Toutin, Th. "Analyse mathématique des possibilités cartographiques du système SPOT". Thèse de Docteur-Ingénieur en Sciences Géodésiques, ENSG, Paris, France, 1985: 1-163.
Toutin, Th. and Carbonneau Y. "La multi-stéréoscopie pour les corrections d'images SPOT-HRV", Canadian Journal of Remote Sensing, p110, Vol. 15, No. 2 (September 1989): 110. (Also available in English from the Canada Centre for Remote Sensing.)
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