Navegando por Autor "LIMA, Bruno Wallacy Martins"

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Acesso aberto (Open Access)
Análise de propagação de ondas eletromagnéticas em ambiente indoor: modelo do caminho dominante versus traçado de raios e FDTD
(Universidade Federal do Pará, 2011-03-11) LIMA, Bruno Wallacy Martins; DMITRIEV, Victor Alexandrovich; http://lattes.cnpq.br/0684541646225359
This work deals with some models propagation of electromagnetic waves. Were first analyzed models related to the prediction signal electromagnetic indoor environments. The models used in this work were the ray tracing, path dominant Energy (DPM) and the FDTD. For the first two models we used commercial software and the FDTD method was developed an algorithm for which the signal is analyzed in an environment with the same geometry used software. The results for the reception points analysis provided by the three models are very close the values of literature. There is the influence of propagation phenomena in signal strength. The relevance of this work is in fact not there, in the literature, studies that compare the three prediction models mentioned, and to propose topics for future research.
Acesso aberto (Open Access)
Modelo para representação de ambientes 3D utilizando composição de modos do método FDTD-2D
(Universidade Federal do Pará, 2017-05-26) LIMA, Bruno Wallacy Martins; DMITRIEV, Victor Alexandrovich; http://lattes.cnpq.br/3139536479960191
In this work, we use the two and three-dimensional versions of the finite-difference time-domain method, FDTD, for simulating the propagation of the electromagnetic waves in an indoor environment. First, the validity of the FDTD-3D method is proven by comparing the values of the power delay profile obtained via a measurement campaign carried out in the indoor environment. The losses expressed with the FDTD-3D method were used to propose corrections to the FDTD-2D results by taking into account the propagation in the free space and the propagation in the indoor environment. The advantages of the FDTD-2D method with corrected transient responses are reduced processing time and memory requirements when compared to other numerical methods. It is possible with the FDTD-2D with corrected signals to simulate wave propagation for large and complex environments and to develop simulation software for personal computers and mobile devices.