大尺度介质中毫米波传播建模的矢量高斯波束跟踪方法

S. Alavirad, M. Shabani, A. Naqavi, A. A. Shishegar
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引用次数: 2

摘要

我们使用三维矢量高斯波束跟踪方法来模拟毫米波的传播。我们模拟了62.4 GHz大尺度环境下高斯波束的传播。首先,将已知的发射机天线远场方向图展开为一组高斯波束。我们选择基于Gabor展开的方法将辐射场展开成高斯光束。然后,采用考虑反射和透射的高斯光束跟踪模型来表示城市微蜂窝的传播。采用相位匹配方法寻找反射高斯光束,并将高斯光束在视距(LOS)和非视距(NLOS)下的追踪模拟结果与光线追踪方法的结果进行了比较。结果与光线追踪技术在相同几何结构上的结果一致。整体覆盖图显示了毫米波波段阴影的主导效应。与耗尽的光线跟踪方法相比,跟踪技术更快,更有前途。
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Vectorial Gaussian beam tracing method for millimeter wave propagation modelling in a large scale media
We use the 3D vectorial Gaussian beam tracing method to model millimeter wave propagation. We simulate the propagation of Gaussian beams in a large scale environment at 62.4 GHz. First, a known far field pattern of the transmitter antenna is expanded into a set of Gaussian beams. We chose Gabor expansion based method to expanding radiating field into Gaussian beams. Then, a Gaussian beam tracing model considering reflections and transmission is used to represent urban microcell propagation. We use a phase matching method to find reflected Gaussian beam The results of the Gaussian beam tracing simulations including line-of-sight (LOS) and non-line-of-sight (NLOS) propagation are compared with the results of the ray tracing method. The results are in good agreement with results of ray tracing technique on the same geometry. Overall coverage map shows the dominant effect of shadowing in the millimeter wave band. The tracing technique is faster and more promising compared to exhausted ray tracing methods.
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