Title :
Propagation path loss in mixed-path environment using narrow angle and wide-angle Parabolic equations
Author :
Magno, Fátima Nazaré Baraúna ; De Souza, João Furtado ; Cozzolino, Klaus ; Costa, Jessé Carvalho ; Cavalcante, Gervásio Protásio Dos Santos
Author_Institution :
Fac. de Fis., Univ. Fed. do Para, Belém - Pará, Brazil
fDate :
Oct. 29 2011-Nov. 1 2011
Abstract :
A model to predict the propagation path loss through the urban foliated semi-confined environment using parabolic equations (PE) is proposed. For this case the propagation in 15° to the paraxial direction and the implicit finite differences scheme of the Crank-Nicolson type is used. To wide-angle relative to the paraxial direction propagation (up to 90°), it used mixed Fourier transform and considers the impedance boundary conditions. A campaign of measurements taken in three mixed-path environment was carried out to validate the model. The frequency used was 900 MHz to Benfica and Marituba, and 1.8 GHz for Barcarena. Numerical examples demonstrate the computational efficiency of the proposed method.
Keywords :
Fourier transforms; finite difference methods; parabolic equations; radiowave propagation; Crank-Nicolson type; computational efficiency; frequency 1.8 GHz; frequency 900 MHz; impedance boundary condition; implicit finite differences scheme; mixed Fourier transform; mixed-path environment; narrow angle parabolic equation; paraxial direction propagation; propagation path loss; radio wave propagation; urban foliated semiconfined environment; wide-angle parabolic equation; Computational modeling; Equations; Finite difference methods; Fourier transforms; Mathematical model; Propagation losses; Roads; Finite difference; Mixed Fourier Transform; Mixed-path; Parabolic equations; Propagation of waves;
Conference_Titel :
Microwave & Optoelectronics Conference (IMOC), 2011 SBMO/IEEE MTT-S International
Conference_Location :
Natal
Print_ISBN :
978-1-4577-1662-1
DOI :
10.1109/IMOC.2011.6169363
