利用Altair WinProp优化2.4GHz和5GHz Wi-Fi路由器放置信号强度的性能

2021 IEEE 7th International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA) Pub Date : 2021-08-23 DOI:10.1109/ICSIMA50015.2021.9526299

Ain Shazleen Haron, Z. Mansor, Izanoordina Ahmad, S. M. Maharum

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引用次数: 2

摘要

在吉隆坡大学英马研究所的通信技术实验室区域，研究了2.4GHz和5GHz Wi-Fi路由器的性能，以解决在某些区域观察到的间歇性连接问题。Altair WinProp是一个波浪传播模拟工具，可以模拟建筑物内部，并在短时间内以高精度的结果检查波浪传播。利用WinProp ProMan，将全向天线方向图放置在聚焦区域内的多个位置，并计算每个天线的传播速度。通信科实验室的布局初步建模。使用WinProp WallMan指定建筑材料的规格。路由器的性能是根据接收到的信号强度来评估的。用不同的频率重复这个过程。然后比较这些天线的性能，以确定在通信技术实验室区域WiFi系统的最佳位置。此外，通过在真实环境中使用insider测量接收到的信号强度，验证了WinProp ProMan获得的仿真结果。最后，确定了要广播的无线电信号的最佳位置。结果表明，该波的传播方式可以一次覆盖整个实验室区域，该位置的信号强度较好。由于这种优化，可以减少当前接入点的数量，从而降低设备成本和电费。

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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The Performance of 2.4GHz and 5GHz Wi-Fi Router Placement for Signal Strength Optimization Using Altair WinProp

The performance of 2.4GHz and 5GHz Wi-Fi router placement in the Communication Technology laboratories area at Universiti Kuala Lumpur British Malaysian Institute is investigated to address the intermittent connectivity problem observed in some areas. Altair WinProp is a wave propagation simulation tool that can simulate the interior of the building and examine wave propagation with a highly accurate result in a short amount of time. Using WinProp ProMan, the omnidirectional antenna patterns are placed at several locations within the focused area, and the propagation of each of the antennas is computed. The layout of the Communication Section laboratory is initially modelled. The specifications of the construction materials are assigned using WinProp WallMan. The router’s performance is evaluated based on the received signal strength. The procedure is repeated using a different frequency. These antennas’ performances are then compared to determine the optimum placement for the WiFi system at the Communication Technology laboratory area. In addition, the simulation results obtained using WinProp ProMan is validated by measuring the received signal strength using InSSIDer in the real environment. Finally, the optimum location for a radio signal to be broadcast from is identified. The results indicate that the wave propagation pattern can cover the entire Labs area in one go, with better signal strength at this position. The number of current access points can be reduced due to this optimisation, resulting in lower equipment costs and lower electricity bills.

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来源期刊

2021 IEEE 7th International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA)

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