Title :
A method of moments based indoor propagation model
Author :
Kavanagh, Ian ; Vinh Pham-Xuan ; Condon, Marissa ; Brennan, Conor
Author_Institution :
Sch. of Electron. Eng., Dublin City Univ., Dublin, Ireland
Abstract :
This paper presents initial efforts to develop a full-wave propagation model for indoor electromagnetic wave propagation. The model is based on the Volume Electric Field Integral Equation (VEFIE) which when discretised by the Method of Moments (MoM) results in a linear system whose iterative solution can be expedited through use of the FFT. Although the formulation requires the discretisation of the entire volume, only unknowns placed in the scattering material (walls, etc) contribute to the scattered field. Consequently, unknowns placed in free space can effectively be removed from the update process in each iteration leading to rapid convergence. Results are presented documenting the computational efficiencies of the formulation and simple path loss models are created from the full-wave simulations which are in accordance with those reported in the literature.
Keywords :
electric field integral equations; electromagnetic wave scattering; fast Fourier transforms; indoor radio; iterative methods; method of moments; mobile radio; radiowave propagation; FFT; VEFIE; computational efficiencies; energy-efficient indoor mobile communication systems; fast Fourier transform; free space; full-wave propagation model; indoor electromagnetic wave propagation; iterative solution; linear system; method-of-moments based indoor propagation model; path loss models; scattering material; volume electric field integral equation; Computational modeling; Fading; Integral equations; Mathematical model; Method of moments; Numerical models; Solid modeling; indoor wireless communications; method of moments; propagation modelling; volume electric field integral equation;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
