室内环境的最佳覆盖面积

2022 Muthanna International Conference on Engineering Science and Technology (MICEST) Pub Date : 2022-03-16 DOI:10.1109/MICEST54286.2022.9790133

Noor. N. Abed, F. Abed, M. Mosleh

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引用次数: 0

摘要

最近，所有建筑物都需要一个适合各种应用的无线网络覆盖。主要的挑战是选择足够的接入点(ap)，以保证更好的覆盖范围和更少的干扰和可接受的接收信号。此外，选择合适的地点放置此类ap直接影响覆盖范围。在本研究中，我们选择了一栋三层楼的建筑作为案例，并设置了适当数量的ap和最佳空间。我们的实验应用于无线InSite (WI)包，有三种场景;第一个是用5tx进行覆盖，这些tx安装在我们认为会覆盖建筑物的选定位置。通过测量接收信号强度(RSS)的大小，为每层楼分配12个接收点(rp)来测量覆盖范围。这种情况下的结果显示了更好的覆盖和良好的接收功率。第二个场景试图将ap减少到3tx，以便通过在合适的位置为每层安装一个TX来减少干扰和成本。WI的仿真结果表明，这些3TXs在降低成本和干扰的情况下实现了可接受的覆盖。个人计算机(PC)使用NetSpot软件包进行了精确的测量，以验证该模型适用于相同的第二种情况。实际结果证实了该方法具有良好的实用覆盖率。

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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Optimum Coverage Area for Indoor Environments

Recently, all buildings need to be covered by a suitable wireless network for various applications. The main challenges are to select enough Access Points (APs) that guarantee better coverage with less interference and the acceptable received signal. Also, choosing a suitable place for such APs directly affects the coverage area. In this research, a case study building with three floors was chosen to be covered by a suitable number of APs with optimum spaces. Our experiment is applied by Wireless InSite (WI) package with three scenarios; the first one is to conduct the covering by 5TXs which are installed in a chosen place that we believe will cover the building. The coverage is measured by distributing 12 Received Points (RPs) for each floor by measuring the amount of Receive Signal Strength (RSS). The results of such a scenario show a better covering with well-received power. The second scenario tries to reduce the APs to 3TXs in order to reduce the interference and cost by installing one TX for each floor in a suitable place. The simulation results of WI show acceptable coverage is achieved by those 3TXs that reduce the cost and interference. An accurate measurement is applied using the NetSpot package by Personal Computer (PC) to validate such a model for the same second scenario. The actual results confirm the good practical coverage.

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2022 Muthanna International Conference on Engineering Science and Technology (MICEST)

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