Millimeter-Wave Radio Link Analysis for 5G FWA by Combining Measurements and Geospatial Data

2022 IEEE Future Networks World Forum (FNWF) Pub Date : 2022-10-01 DOI:10.1109/FNWF55208.2022.00083

Norshahida Saba, Lauri Mela, K. Ruttik, J. Salo, R. Jäntti

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Abstract

Fifth-generation (5G) fixed wireless access (FWA) at millimeter-wave (mmWave) can be a solution to fulfill the increasing demand of high-speed home broadband service. However, mmWave links have high propagation loss and are susceptible to blockage. In order to estimate mmWave coverage, appropriate radio link models are required. In this paper, we use measurements and geospatial data to analyze how mmWave can be utilized in Finnish rural areas. The measurements were conducted during summertime at 26 GHz. The measurements involved a crane and a mobile measurement van. The crane was used for measuring at three different transmitter heights, 30 m, 50 m and 70 m from the ground. During the summer, Finnish forests are covered with heavy foliage. We use the measurements and geospatial map to derive radio propagation models that are suitable for FWA in Finnish rural areas. The empirically-found vegetation attenuation models, Aalto1 and Aalto2, are compared to other models from the literature. Most of the other models, FITU-R, Weissberger, COST235 and KAIST1, overestimate the vegetation loss. KAIST2 is a good fit with 7.75 dB root mean square error (RMSE) value. The proposed Aalto1 model shows the best fit, with 5.98 dB RMSE. The model fit can further be improved by tuning it for a particular antenna height. Our analysis shows that, despite high vegetation blockage in the range of 40 m to 700 m, the excess loss remains below 40 dB.

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结合测量和地理空间数据的5G FWA毫米波无线链路分析

第五代(5G)毫米波(mmWave)固定无线接入(FWA)可以成为满足高速家庭宽带业务日益增长需求的解决方案。然而，毫米波链路具有高传播损耗并且容易受到阻塞。为了估计毫米波的覆盖范围，需要适当的无线电链路模型。在本文中，我们使用测量和地理空间数据来分析如何在芬兰农村地区利用毫米波。测量是在夏季进行的，频率为26 GHz。测量涉及一台起重机和一辆移动测量车。起重机用于测量距离地面30米、50米和70米三种不同的发射机高度。在夏季，芬兰的森林覆盖着厚厚的树叶。我们使用测量和地理空间地图来推导适合芬兰农村地区无线宽带的无线电传播模型。将经验建立的植被衰减模型Aalto1和Aalto2与文献中的其他模型进行比较。FITU-R、Weissberger、COST235和KAIST1等其他模型大多高估了植被损失。KAIST2与7.75 dB均方根误差(RMSE)值拟合良好。提出的Aalto1模型拟合效果最好，RMSE为5.98 dB。模型拟合可以进一步改善，通过调整它为一个特定的天线高度。我们的分析表明，尽管在40 ~ 700 m范围内植被高度阻塞，但超额损失仍保持在40 dB以下。

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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2022 IEEE Future Networks World Forum (FNWF)

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