Title :
Finite Element based Beam Propagation Method for 3D Wave Propagation in Troposphere
Author :
Arshad, Kamran ; Katsriku, Ferdinand ; Lasebae, Aboubaker
Author_Institution :
Sch. of Comput. Sci., Middlesex Univ., London
Abstract :
A three dimensional finite element solution of the parabolic equation for beam propagation in troposphere is newly formulated. The model represents propagation over a spherical earth and allows specification of frequency, polarization, beam width and antenna height. An efficient three dimensional form of the helmholtz equation with height dependant refractivity is used to model radio wave propagation in troposphere. By using this method, horizontal and vertical tropospheric characteristics are assigned to every element, and different refractivity profiles can be entered at different stages. We also implement some abnormal environmental conditions to assess our method, and investigate ducting phenomena in troposphere
Keywords :
Helmholtz equations; electromagnetic wave refraction; finite element analysis; radiowave propagation; tropospheric electromagnetic wave propagation; 3D wave propagation; beam propagation method; height dependant refractivity; helmholtz equation; parabolic equation; radio wave propagation; three dimensional finite element solution; troposphere; Atmospheric modeling; Earth; Equations; Finite element methods; Frequency; Optical propagation; Physical optics; Polarization; Refractive index; Terrestrial atmosphere;
Conference_Titel :
Advanced Communication Technology, 2006. ICACT 2006. The 8th International Conference
Conference_Location :
Phoenix Park
Print_ISBN :
89-5519-129-4
DOI :
10.1109/ICACT.2006.206410
