Title :
Full Three-Dimensional Radio Wave Propagation Prediction Model
Author :
Saeidi, Chiya ; Fard, Azim ; Hodjatkashani, Farrokh
Author_Institution :
Electr. Eng. Dept., Iran Univ. of Sci. & Technol., Tehran, Iran
fDate :
5/1/2012 12:00:00 AM
Abstract :
An efficient propagation prediction model is presented. The modeling is subdivided into three phases; preprocessing, tracing rays, and postprocessing. Information obtained from the relations between the facet pairs is employed in the preprocessing. Heuristic removal of double tracing of rays shared among adjacent tubes halves the tube tracing time. For the prediction of the E-field over a surface, an accurate geometrical approach is proposed and a backtracking calculation method is tailored. Also, the multiple counting shortcoming is resolved in SBR and, single and double diffraction are modeled. The method directly functions on three dimensional geometry of the problem and considers all chains of interactions up to the second order successive diffractions. Finally, the applicability and reliability of the method is verified by comparison of results with a numerical method and measurements.
Keywords :
electromagnetic wave diffraction; numerical analysis; radiowave propagation; ray tracing; E-field prediction; adjacent tubes; backtracking calculation method; double-diffraction model; double-ray tracing; facet pairs; full-three-dimensional radiowave propagation prediction model; geometrical approach; heuristic removal; numerical method; postprocessing phase; preprocessing phase; second-order diffraction; single-diffraction model; three-dimensional geometry; tracing ray phase; tube tracing time; Belts; Diffraction; Electron tubes; Geometry; Receivers; Three dimensional displays; Transmitters; Ray tracing; UHF radio propagation; UTD;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2012.2189692
