Title :
Diffraction by a conducting half-plane with application to radar target shadowing
Author_Institution :
Defence Sci. & Technol. Lab., Great Malvern, UK
fDate :
4/1/2002 12:00:00 AM
Abstract :
The field received at a moving radar which illuminates a far-field point target is derived for the two-dimensional case when the target is shadowed by a perfectly conducting half-plane. This problem arises in radar imaging and in certain calculations of radar cross-section. The derivation is based on an approximate analysis of line source diffraction by a conducting half-plane using antenna aperture analysis and image theory. The approximate solution is the same as that obtained by integral equation techniques and, in particular, leads to the exact (Sommerfeld) expression for plane wave incidence on the half-plane. Results from the radar solution quantify errors in estimating the dimensions of target features when the features are in the vicinity of shadow boundaries during the imaging process
Keywords :
approximation theory; conducting bodies; electromagnetic wave diffraction; image resolution; radar cross-sections; radar imaging; radar resolution; synthetic aperture radar; ISAR imaging; antenna aperture analysis; approximate analysis; approximate solution; conducting half-plane diffraction; exact Sommerfeld expression; far-field point target; half-plane; high-resolution imaging radar; image theory; integral equation techniques; inverse synthetic aperture radar; line source diffraction; moving radar; perfectly conducting half-plane; plane wave incidence; radar cross-section; radar imaging; radar solution; radar target shadowing; shadow boundaries; target dimension error estimation; target features;
Journal_Title :
Radar, Sonar and Navigation, IEE Proceedings -
DOI :
10.1049/ip-rsn:20020228
