Comparison of GTD and FDTD predictions for UHF radio wave propagation in a simple outdoor urban environment

IEEE Antennas and Propagation Society International Symposium 1997. Digest Pub Date : 1997-07-13 DOI:10.1109/APS.1997.631735

J. Schuster, R. Luebbers

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引用次数: 38

Abstract

The continuing growth of wireless communication systems has led to an interest in the development of site-specific propagation models. In designing microcell systems there is a often a desire to have a good understanding of the propagation characteristics within the cell. Site-specific models offer a fast and inexpensive means of obtaining this information without the need for on-site measurements. The finite difference time domain (FDTD) method was initially developed by Yee in 1966. The method is commonly applied to three-dimensional scattering and radiation problems. But with the exception of analyzing the propagation within a single room, even the largest computers do not have nearly enough memory to model full three-dimensional indoor or outdoor propagation problems. However, in many cases a two-dimensional approximation to the geometry can be used, and two-dimensional FDTD has previously been applied to indoor propagation. This paper considers the application of 2D FDTD to a simple outdoor environment and develops a simple approach for introducing the correct spherical wave spreading. Comparisons to FDTD predictions could be used to evaluate and refine the GTD based methods.

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城市简单室外环境下UHF无线电波传播的GTD和FDTD预测比较

无线通信系统的持续发展引起了对特定站点传播模型发展的兴趣。在设计微细胞系统时，通常需要对细胞内的繁殖特性有一个很好的理解。现场特定模型提供了一种快速而廉价的方法，无需现场测量即可获得此信息。时域有限差分(FDTD)方法最初是由Yee在1966年提出的。该方法通常用于三维散射和辐射问题。但是，除了分析单个房间内的传播之外，即使是最大的计算机也没有足够的内存来模拟室内或室外的三维传播问题。然而，在许多情况下，二维近似几何可以使用，二维时域有限差分以前已应用于室内传播。本文考虑了二维时域有限差分在简单室外环境中的应用，提出了一种引入正确球面波传播的简单方法。与FDTD预测的比较可以用来评估和改进基于GTD的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Antennas and Propagation Society International Symposium 1997. Digest

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