Ray-tracing propagation prediction for wireless mesh networks (WMNs)

2007 Asia-Pacific Conference on Applied Electromagnetics Pub Date : 2007-12-01 DOI:10.1109/APACE.2007.4603949

M. S. Zakaria, V. R. Gannapathy, M. Muhammad, N. M. Salleh, M. K. Suaidi, M. Johal, M. Aziz, M.R. Ahmad

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Abstract

Nowadays, a lot of research efforts and technical papers are done on ad-hoc networks and wireless local area networks (WLAN). Recently, however wireless mesh networking is attracting significant interest from academia, industry, and standard organizations because it is offer several favorable characteristics such as dynamic self-organization, easy maintenance and reliable services. A network with several transmitters and receivers that communicate to each other will form a mesh network topology. Once the transmitter launches a ray, it will be reflected, refracted or diffracted to any kind of surfaces such as the concrete wall. That process will decrease the received signal strength at the receiver. So, ray-tracing technique can be used to analyze the network performance. It is a method that used to determine the ray paths that emanate from the transmitter (Tx) and arrive at the receiver (Rx), and also an efficient approach in determining the propagation issues in wireless environment. So, this paper will be focused on Ray-Tracing techniques and WMNs theories.

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无线网状网络(WMNs)的射线追踪传播预测

目前，对自组织网络和无线局域网(WLAN)进行了大量的研究和技术论文。近年来，由于无线网状网络具有动态自组织、易于维护和服务可靠等优点，引起了学术界、工业界和标准组织的极大兴趣。一个有几个相互通信的发射器和接收器的网络将形成一个网状网络拓扑结构。一旦发射器发射光线，它将被反射、折射或衍射到任何类型的表面，如混凝土墙。这个过程会降低接收器接收到的信号强度。因此，光线追踪技术可以用于分析网络性能。它是一种用于确定从发射器(Tx)发出并到达接收器(Rx)的射线路径的方法，也是确定无线环境中传播问题的有效方法。因此，本文将重点讨论射线追踪技术和WMNs理论。

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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2007 Asia-Pacific Conference on Applied Electromagnetics

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