Title :
A fast physical optics (FPO) algorithm for double-bounce scattering
Author :
Boag, Amir ; Michielssen, Eric
Author_Institution :
Dept. of Electr. Eng - Phys. Electron., Tel Aviv Univ., Israel
Abstract :
The fast physical optics (FPO) method for computing back-scattered fields over ranges of aspect angles and frequencies is extended to encompass double-bounce scattering. Computations are performed within the framework of the physical optics approximation appropriate in the high-frequency regime. The proposed algorithm is directly applicable to fixed angle bistatic configurations and a variety of double scattering settings. The method comprises two steps: 1) decomposition of the scatterer into subscatterers and computation of the scattering amplitudes of all pairs of subscatterers and 2) interpolation, phase correction, and aggregation of the scattering amplitude patterns of all subscatterer pairs into the pattern of the entire scatterer. The proposed method is especially suited for generating synthetic data for radar imaging simulations.
Keywords :
backscatter; electromagnetic wave scattering; interpolation; physical optics; radar cross-sections; radar imaging; synthetic aperture radar; aspect angle; back-scattered field computation; double scattering setting; double-bounce scattering; electromagnetic scattering; fast physical optics algorithm; fixed angle bistatic configuration; high-frequency regime; interpolation; phase correction; radar cross section; radar imaging simulation; scatterer decomposition; scattering amplitude pattern aggregation; synthetic aperture radar; synthetic data generation; Computational modeling; Frequency; High performance computing; Interpolation; Optical computing; Optical scattering; Physical optics; Physics computing; Radar imaging; Radar scattering;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2003.822428
