Title :
High-Frequency EM Characterization of Through-Wall Building Imaging
Author :
Chang, Paul C. ; Burkholder, Robert J. ; Volakis, John L. ; Marhefka, Ronald J. ; Bayram, Yakup
Author_Institution :
Sensor Signal Process. Div., SET Corp., Dayton, OH
fDate :
5/1/2009 12:00:00 AM
Abstract :
A high-frequency asymptotic technique based on the Uniform Geometric Theory of Diffraction (UTD) is employed for building interior imaging. The analysis is implemented using a ray-tracing technique to account for multiple scattering interactions in a building, along with a set of heuristic diffraction coefficients for dielectric wedges and corners. Imaging of the synthetic aperture radar data is carried out by the conventional fast Fourier transform method to transform to the downrange domain, and combined with a coherent near-zone imaging function for cross-range. Comparisons with experimental data for a scaled-down building model are given to demonstrate the suitability and efficacy of our analysis for through-wall building imaging. The UTD ray mechanisms account for the dominant scattering features observed in the image.
Keywords :
electromagnetic wave diffraction; electromagnetic wave scattering; fast Fourier transforms; geometrical theory of diffraction; radar imaging; ray tracing; synthetic aperture radar; UTD ray mechanisms; coherent near-zone imaging function; dielectric wedges; diffraction coefficients; fast Fourier transform method; high-frequency EM characterization; high-frequency asymptotic technique; multiple scattering; ray-tracing technique; synthetic aperture radar; through-wall building imaging; uniform geometric theory of diffraction; High-frequency techniques; radar imaging; ray methods; through-wall propagation;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2009.2016082
