Title :
A parabolic approximation method for propagation prediction in an inhomogeneous atmosphere over irregular terrain
Author_Institution :
Rafael, Haifa, Israel
Abstract :
A standard parabolic equation is used to approximate the Helmholtz equation for electromagnetic propagation in an inhomogeneous atmosphere (troposphere). An implicit finite difference (IFD) scheme is applied between the irregularly shaped ground and an altitude z=zh below which all lateral inhomogeneities of the medium are assumed localized. The boundary condition at z=zh is obtained by matching the IFD solution to a Green function solution within the uniform region above z=zh. This `IFDG´ method is the first to predict propagated fields in an inhomogeneous atmosphere over irregular terrain. For a standard atmosphere, IFDG results are shown to agree well with predictions using the WAGNER method. The efficiency of the method make it an ideal candidate for extension to three dimensional geometries
Keywords :
Green´s function methods; finite difference methods; parabolic equations; tropospheric electromagnetic wave propagation; Green function solution; Helmholtz equation; boundary condition; electromagnetic propagation; implicit finite difference; inhomogeneous atmosphere; irregular terrain; irregularly shaped ground; lateral inhomogeneities; prediction method; standard parabolic equation; tropospheric EM propagation; uniform region; Approximation methods; Argon; Atmosphere; Boundary conditions; Differential equations; Electromagnetic propagation; Finite difference methods; Green function; Helium; Magnetic separation;
Conference_Titel :
Electrical and Electronics Engineers in Israel, 1991. Proceedings., 17th Convention of
Conference_Location :
Tel Aviv
Print_ISBN :
0-87942-678-0
DOI :
10.1109/EEIS.1991.217715
