Title :
Extension of the 3-D range migration algorithm to cylindrical and spherical scanning geometries
Author :
Fortuny-Guasch, Joaquim ; Lopez-Sanchez, Juan M.
Author_Institution :
Joint Res. Centre, Commision of the Eur. Communities, Ispra, Italy
fDate :
10/1/2001 12:00:00 AM
Abstract :
A near field three-dimensional (3-D) synthetic-aperture radar (SAR) algorithm specially tailored for cylindrical and spherical scanning geometries is presented. An imaging system with 3-D capability can be implemented by using a stepped-frequency radar which synthesizes a two-dimensional (2-D) aperture. Typical scanning geometries commonly used are planar, cylindrical, and spherical. The 3-D range migration algorithm (RMA) can be readily used with a planar scanning geometry. This algorithm is extremely accurate, preserves the phase, and corrects for the wavefront curvature. The RMA cannot be directly applied with nonplanar scanning geometries. However, as an alternative solution, we propose to backpropagate the backscattered data onto a planar aperture in the vicinity of the measurement aperture and then apply the 3-D RMA. The proposed imaging algorithm is validated both numerically and experimentally
Keywords :
backpropagation; backscatter; electromagnetic wave scattering; radar antennas; radar imaging; scanning antennas; synthetic aperture radar; 2D aperture; 3D range migration algorithm; backscattered data backpropagation; cylindrical scanning geometry; imaging algorithm; imaging system; measurement aperture; near field 3D SAR algorithm; planar aperture; planar scanning geometry; point scatterers; spherical scanning geometry; stepped-frequency radar; synthetic-aperture radar; wavefront curvature correction; Adaptive arrays; Antenna measurements; Antennas and propagation; Backscatter; Frequency domain analysis; Geometry; Geophysical measurements; Radar imaging; Synthetic aperture radar; Two dimensional displays;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
