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引用次数: 25
摘要
基于IEEE 802.11的无线局域网(wlan)的安装由于其低成本和高速数据速率能力,在过去两年中呈指数级增长。尽管许多组织已经开始使用WLAN,但是仍然很少有工具可以帮助设计WLAN网络。因此,WLAN网络的当前部署本质上仍然是ad-hoc的。本文报告的研究目标是开发用于WLAN网络性能优化的建模工具。特别是,我们试图开发传播模型,通过考虑特定环境参数,如建筑物的结构、是否存在固定障碍物等,来预测WLAN系统中的信号强度和干扰(COST231 Final Report, 1998)。本文研究了移动障碍物(如人)对无线电波在建筑物内传播的影响,以及对接收信号质量的影响,特别是IEEE802.11 2.4 GHz信道中的误码率。我们的研究结果表明,移动障碍物(如人)的存在会导致接收到的信号发生强烈变化,从而严重影响接收到的信号质量。
Influence of people shadowing on bit error rate of IEEE802.11 2.4 GHz channel
Installations of IEEE 802.11-based wireless local area networks (WLANs) have been growing exponentially over the past two years due to their low cost and high-speed data rate capabilities. Although many organizations have started using WLANs, there are still few tools available that assist in the design of WLAN networks. As a result, the current deployment of WLAN networks remains ad-hoc in nature. The objective of the research reported here is to develop modeling tools for performance optimization of WLAN networks. In particular, we attempt to develop propagation models that can predict the signal strength and interference in a WLAN system by taking environment specific parameters into account such as the structure of the building, presence or absence of stationary obstacles, etc (COST231 Final Report, 1998). This paper investigates the influence of moving obstacles, such as people, on radio wave propagation inside a building and the effect on received signal quality, in particular the bit error rate in an IEEE802.11 2.4 GHz channel. Our findings suggest that the presence of moving obstacles, such as people, causes strong variations in the received signal, which seriously affects the quality of the received signal.
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