Path loss model for outdoor environment at 17 GHz mm-wave band

2016 IEEE 12th International Colloquium on Signal Processing & Its Applications (CSPA) Pub Date : 2016-03-04 DOI:10.1109/CSPA.2016.7515827

A. Al-Samman, T. A. Rahman, M. Azmi, N. Zulkefly, A. Mataria

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引用次数: 6

Abstract

This paper presents the path loss model for 17 GHz mm-Wave frequency spectrum. The millimeter-wave spectrum has been proposed for future high speed 5G cellular systems with large bandwidth requirement. Since this proposal, propagation studies characterizing and investigating the potential of mm-Wave spectrum have been aggressively performed. This work conducts measurement campaign to derive a path loss models for outdoor environment in line-of-sight (LOS) scenarios at 17 GHz mm-Wave frequency spectrum. The derived models are based on the log-normal shadowing model. The path loss exponent for the derived path loss models is 2.3, which indicates that the chosen outdoor environment is an open environment like free space. Comparison between the values of path loss provided by the measured data, the derived path loss model and the free space model is made. The differences between the path loss value from the measured data and the derived path loss model is 7dB, while 13 dB differences is found when comparing the measured data and the free space loss model.

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17 GHz毫米波波段室外环境路径损耗模型

本文提出了17ghz毫米波频谱的路径损耗模型。毫米波频谱已被提出用于未来具有大带宽需求的高速5G蜂窝系统。自从这一建议提出以来，对毫米波频谱的特性和潜力进行了积极的传播研究。这项工作开展了一项测量活动，以得出在17 GHz毫米波频谱的视距(LOS)场景下户外环境的路径损耗模型。导出的模型基于对数正态阴影模型。导出的路径损耗模型的路径损耗指数为2.3，说明所选择的室外环境是自由空间一样的开放环境。将实测数据提供的路径损耗值与导出的路径损耗模型和自由空间模型进行了比较。实测数据得到的路径损耗值与推导出的路径损耗模型的差异为7dB，而实测数据与自由空间损耗模型的差异为13 dB。

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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来源期刊

2016 IEEE 12th International Colloquium on Signal Processing & Its Applications (CSPA)

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