Title :
Correcting topography effects on terrestrial radar maps
Author :
Jaud, M. ; Rouveure, R. ; Faure, P. ; Monod, M.-O. ; Moiroux-Arvis, L.
Author_Institution :
UR TSCF, Nat. Res. Inst. of Sci. & Technol. for Environ. & Agric., Aubiere, France
Abstract :
The vehicle-based radar named PELICAN has been used in a context of mobile mapping. R-SALM algorithm allows to simultaneously retrieve the trajectory of the vehicle and the map of the environment. This article proposes a method to correct the radar map distortions induced by local topographic effects. The a priori knowledge of the area topography is provided by a digital elevation model. An orthorectification process has been developed to correct the panoramic radar images. By applying the method to the data obtained on a course with large variations in altitude it was shown that the corrected panoramic radar images are contracted by the orthorectification process. An orthorectified map is then built by merging the panoramic images and finally the orthorectified trajectory is compared to the non-orthorectified trajectory.
Keywords :
digital elevation models; radar imaging; remote sensing by radar; synthetic aperture radar; terrain mapping; topography (Earth); R-SALM algorithm; a priori knowledge; area topography; corrected panoramic radar images; digital elevation model; local topographic effects; mobile mapping; nonorthorectified trajectory; orthorectification process; orthorectified map; panoramic image merging; terrestrial radar map distortions; topography effects; vehicle trajectory; vehicle-based radar PELICAN; Buildings; Geometry; Image resolution; Radar imaging; Radiometry; Roads; FMCW radar; cartography; orthorectification;
Conference_Titel :
Radar Conference (Radar), 2014 International
DOI :
10.1109/RADAR.2014.7060379
