Title :
Control of Scattered Field Pattern from a Straight Conducting Wire Utilizing the Equivalent TEM Mode Theory of Radiation and Genetic Algorithm
Author :
Issamil, M.N. ; Hashish, E.A. ; Sabry, W.
Author_Institution :
Cairo Univ.
Abstract :
The genetic algorithm (GA) is used to optimize the loading of a wire to satisfy special requirements in the backscattering of a straight wire scatterer. The optimization goals may be satisfied in terms of a range of angles or frequencies, the side lobe level, the load values, beamwidth value, or a combination of the previous quantities. The backscattering level of this wire antenna is controlled by using different loads (passive only) or voltage sources. Surprisingly, for a straight wire scatterer with a single load (or single feed), subjected to a normally incident plane wave significant minimization of sidelobe level, reaching about -27dB below the case of a short circuited wire case, has been achieved over an angular sector (0deg-60deg)
Keywords :
antenna radiation patterns; backscatter; electromagnetic wave scattering; genetic algorithms; minimisation; wire antennas; TEM radiation mode theory; backscattering; field pattern scattering; genetic algorithm; minimization; optimization; straight conducting wire; wire antenna; Backscatter; Circuits; Feeds; Frequency; Genetic algorithms; Loaded antennas; Minimization; Scattering; Voltage control; Wire;
Conference_Titel :
Radio Science Conference, 2006. NRSC 2006. Proceedings of the Twenty Third National
Conference_Location :
Menoufiya
Print_ISBN :
977-5031-84-2
Electronic_ISBN :
977-5031-84-2
DOI :
10.1109/NRSC.2006.386327
