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This monograph deals with the statistical properties
of the scattered field of an electromagnetic wave
propagating over a (perfectly conducting) rough
surface at low grazing angles. Two different
approaches, one based on the parabolic equation
techniques and the other based on an exact full wave
integral equation, are investigated. For the
parabolic equation modeling of the forward scattering
over a rough surface, only the mean field is
considered. Efficient Fourier split-step solutions
are carried out and results are compared to the
experimental data. Meanwhile a recently published
analytical approach, the mean Green''s function
technique for computing the mean scattered field, is
numerically evaluated through direct comparisons with
other methods. In the second method, the surface is
assumed to be periodic resulting in a surface
integral equation over only one single period. The
new integral equation is discretized using the method
of moments and is solved using the generalized
conjugate residue algorithm with the help of the fast
multipole method. Both the mean and the second moment
of the scattered field are studied.
of the scattered field of an electromagnetic wave
propagating over a (perfectly conducting) rough
surface at low grazing angles. Two different
approaches, one based on the parabolic equation
techniques and the other based on an exact full wave
integral equation, are investigated. For the
parabolic equation modeling of the forward scattering
over a rough surface, only the mean field is
considered. Efficient Fourier split-step solutions
are carried out and results are compared to the
experimental data. Meanwhile a recently published
analytical approach, the mean Green''s function
technique for computing the mean scattered field, is
numerically evaluated through direct comparisons with
other methods. In the second method, the surface is
assumed to be periodic resulting in a surface
integral equation over only one single period. The
new integral equation is discretized using the method
of moments and is solved using the generalized
conjugate residue algorithm with the help of the fast
multipole method. Both the mean and the second moment
of the scattered field are studied.