Implementation of Map-To-Image-Correspondence for Synthetic Aperture Radar Image Analysis

Radargrammetric techniques, developed to support stereo mensuration and data capture from synthetic aperture radar (SAR) imagery, have been extended to enable map-to-image correspondence for computer-assisted radar image analysis. This mechanism projects existing digital map data into the image spac...

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Hauptverfasser:	Lukes,George E, Raggam,J Hannes
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Sprache:	eng
Schlagworte:	ACQUISITION Active & Passive Radar Detection & Equipment AUGMENTATION COMPUTER APPLICATIONS CONFIGURATIONS DATA BASES DETECTORS DIGITAL MAPS DIGITAL SYSTEMS DOCUMENTS ELEVATION GEOMETRY IMAGE PROCESSING MAPPING MATHEMATICAL MODELS MEASUREMENT PARAMETERS PLANIMETRY PLOTTERS RADAR IMAGES SOURCES STEREOPHOTOGRAPHY SYNTHETIC APERTURE RADAR TERRAIN TEST FACILITIES WEST GERMANY
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creator	Lukes,George E Raggam,J Hannes
description	Radargrammetric techniques, developed to support stereo mensuration and data capture from synthetic aperture radar (SAR) imagery, have been extended to enable map-to-image correspondence for computer-assisted radar image analysis. This mechanism projects existing digital map data into the image space of a new SAR image rigorously accounting for the sensor imaging geometry and terrain configuration. Prerequisites for SAR map-to-image correspondence include (1) an analytical sensor model, (2) recovery of the image acquisition parameters and (3) three-dimensional (3d) digital map data. Analytical radar mapping techniques address the first two issues. Suitable 3d planimetric map data can be compiled directly from stereo photography using analytical plotters or indirectly using elevation data interpolated from digital elevation models to augment conventional two-dimensional map data derived from manuscripts. The approach is illustrated by selected examples from a case study conducted for a test area near Frieburg, West Germany. Here, 3d digital data for transportation and landcover maps were assembled from cartographic sources using planimetric augmentation.
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This mechanism projects existing digital map data into the image space of a new SAR image rigorously accounting for the sensor imaging geometry and terrain configuration. Prerequisites for SAR map-to-image correspondence include (1) an analytical sensor model, (2) recovery of the image acquisition parameters and (3) three-dimensional (3d) digital map data. Analytical radar mapping techniques address the first two issues. Suitable 3d planimetric map data can be compiled directly from stereo photography using analytical plotters or indirectly using elevation data interpolated from digital elevation models to augment conventional two-dimensional map data derived from manuscripts. The approach is illustrated by selected examples from a case study conducted for a test area near Frieburg, West Germany. 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This mechanism projects existing digital map data into the image space of a new SAR image rigorously accounting for the sensor imaging geometry and terrain configuration. Prerequisites for SAR map-to-image correspondence include (1) an analytical sensor model, (2) recovery of the image acquisition parameters and (3) three-dimensional (3d) digital map data. Analytical radar mapping techniques address the first two issues. Suitable 3d planimetric map data can be compiled directly from stereo photography using analytical plotters or indirectly using elevation data interpolated from digital elevation models to augment conventional two-dimensional map data derived from manuscripts. The approach is illustrated by selected examples from a case study conducted for a test area near Frieburg, West Germany. 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subjects	ACQUISITION Active & Passive Radar Detection & Equipment AUGMENTATION COMPUTER APPLICATIONS CONFIGURATIONS DATA BASES DETECTORS DIGITAL MAPS DIGITAL SYSTEMS DOCUMENTS ELEVATION GEOMETRY IMAGE PROCESSING MAPPING MATHEMATICAL MODELS MEASUREMENT PARAMETERS PLANIMETRY PLOTTERS RADAR IMAGES SOURCES STEREOPHOTOGRAPHY SYNTHETIC APERTURE RADAR TERRAIN TEST FACILITIES WEST GERMANY
title	Implementation of Map-To-Image-Correspondence for Synthetic Aperture Radar Image Analysis
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