A ray-tracing method for predicting delay spread in tunnel environments

2000 IEEE International Conference on Personal Wireless Communications. Conference Proceedings (Cat. No.00TH8488) Pub Date : 2000-12-17 DOI:10.1109/ICPWC.2000.905917

M. H. Kermani, M. Kamarei

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引用次数: 30

Abstract

Our model to predict the propagation is based on ray-tracing which uses an images algorithm to find paths between transmitter and receiver of a digital communication system. It accounts for all rays reaching the receiver location after an arbitrary number of reflections and includes the effect of the angle of incidence, the material dielectric constant, the antenna pattern and polarization, the wall roughness, and the tunnel cross section size. The simulation results in this paper are obtained by analyzing many fewer rays compared to other published results. The results illustrate that in an empty straight rectangular tunnel environment, propagation has a very short time delay spread. Meanwhile, the results have shown that rms delay spread for horizontally polarized transmit and receive antennas is more than for vertically polarized transmit and receive antennas, in which the attenuation constant is less when transmit and receive antennas are horizontally polarized than when they are vertically polarized. Finally, by using a specific pattern, the rms delay spread is decreased compared to an isotropic antenna.

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隧道环境中延迟传播预测的射线追踪方法

我们的传播预测模型是基于光线追踪的，它使用图像算法来寻找数字通信系统的发送器和接收器之间的路径。它考虑了经过任意次数反射后到达接收器位置的所有光线，包括入射角、材料介电常数、天线方向图和极化、壁面粗糙度和隧道截面尺寸的影响。与其他已发表的结果相比，本文的模拟结果是通过分析更少的射线而得到的。结果表明，在空直矩形隧道环境中，传播具有很短的时延扩展。同时，研究结果表明，水平极化发射和接收天线的rms延迟扩展大于垂直极化发射和接收天线，其中水平极化发射和接收天线的衰减常数小于垂直极化发射和接收天线的衰减常数。最后，通过使用特定的方向图，与各向同性天线相比，rms延迟扩展减小了。

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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来源期刊

2000 IEEE International Conference on Personal Wireless Communications. Conference Proceedings (Cat. No.00TH8488)

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