Title :
Efficient geolocation and image simulation for extended SAR strip maps
Author :
Small, David ; Meier, Erich ; Nüesch, Daniel
Author_Institution :
Remote Sensing Labs., Zurich Univ., Switzerland
Abstract :
We introduce a more efficient method for implementing backward geocoding. For grid locations sparsely spaced along the extended swath, forward geocoding is used to calculate map coordinates corresponding to near and far-range locations (at a single nominal height). A buffer extends the near and far range positions to account for differences between nominal and true (DEM) heights. All map co-ordinate locations outside these boundaries are marked a priori as "no data" positions (no radar data available there). Within the confines of these boundaries, geolocation proceeds normally. We document the run-time improvement provided, and show how the increase in efficiency provided by geolocation confinement grows quadratically with the length of the swath. We demonstrate significantly improved run times for image simulation using simulated ENVISAT products generated with ERS data
Keywords :
image coding; radar imaging; synthetic aperture radar; terrain mapping; ENVISAT products; ERS data; IMM; backward geocoding; efficient geolocation; extended SAR strip maps; extended swath; forward geocoding; geolocation confinement; image simulation; length swath; map coordinate locations; radar data availability; radiometric simulation; run-time improvement; synthetic aperture radar; terrain geocoding; Calibration; Doppler radar; Geometry; Layout; Radar imaging; Radiometry; Runtime; Solid modeling; Strips; Synthetic aperture radar;
Conference_Titel :
Geoscience and Remote Sensing Symposium, 2001. IGARSS '01. IEEE 2001 International
Conference_Location :
Sydney, NSW
Print_ISBN :
0-7803-7031-7
DOI :
10.1109/IGARSS.2001.978287
