Dissertação
Aplicação da transformada rápida de Fourier em equações integrais no domínio do tempo para a caracterização de propagação radioelétrica
Fecha
2021-02-24Autor
Renata Alves Antunes Teles
Institución
Resumen
This work proposes accelerating prediction of propagation of an electromagnetic wave
based on time-domain integral equations by using Fast Fourier Transform (FFT). In this
problem, a vertically - or parallel - polarized wave with near graze over a smoothly irregular
terrain is considered, so that it can be trated as a perfect magnetic conductor and, by
applying the equivalence principle, replaced by equivalent superficial magnetic currents
which can be calculated using the Method of Moments (MoM). For the formulation in time
domain, marching-on-in-time is used on time discretization for computing time convolution.
FFT is applied to accelerate those convolutions. Results from Time-Domain Magnetic
Field Integral Equation (TD-MFIE) and Time-Domain Electric Field Integral Equation
(TD-EFIE) were compared to frequency domain integral equations - MFIE and EFIE - and
to Time-Domain Uniform Theory of Diffraction (TD-UTD), and their simulation times
were compared to TD-MFIE with FFT. There were highly concordant results between
the methods, despite some differences shown on TD-UTD given the fact that it does not
consider double diffractions and diffractions in edges with an internal angle greater than
180°. Using FFT to calculate time convolution integrals reduces significantly calculation
time in 28 times, which shows its potential application in this problem, but a greater study
about signals envolved in operations is required.