Shi Jie Seah, Siat Ling Jong, Hong Yin Lam, Chee Yen Leow
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引用次数: 0
摘要
传播路径中存在障碍物是空对地(AG)通信的一个关键因素。无线信号的传播行为取决于多个变量,如频率、建筑物高度、仰角和街道设计。本文旨在根据实际现场数据,包括郊区环境中建筑物的几何形状,对已建立的三种视线(LOS)概率模型进行比较。利用现场数据对这三种模型进行比较,可为根据乐观和悲观预测选择视线概率模型提供指导。在马来西亚敦侯赛因大学的两个郊区地点,对仰角为 20°、频率为 2 和 3.5 GHz 的阴影损耗进行了评估。文献中提供的三种预测模型(ITU-R P.1410-5、Holis 和 Pechac 以及 Pang 等人)被用来确定和比较视线概率。通过重点研究郊区的阴影模型,可以制定在这些具有挑战性的环境中优化 LOS 通信或导航的指南。研究结果突出了在 AG 通信中考虑建筑物高度对网络性能评估和设计的重要性。
The study of shadowing effect for LTE and 5G networks in suburban environment
The presence of obstacles in the propagation path is a critical factor in air-to-ground (AG) communication. The behavior of wireless signal propagation depends on several variables, such as frequency, building height, elevation angle, and street design. This paper aims to compare the three established line of sight (LOS) probability model based on actual site data, including the building geometry in suburban environment. The comparison between these three models using the site data provide a guideline for selecting the LOS probability model based on the optimistic and pessimistic predictions. The shadowing loss was evaluated at frequencies 2 and 3.5 GHz with an elevation angle of 20° in two suburban locations at Universiti Tun Hussein Onn Malaysia. Three prediction models, ITU-R P.1410-5, Holis and Pechac, and Pang et al., available in the literature were used to identify and compare the line-of-sight probability. By focusing on the shadowing model in suburban area, the guideline for optimizing LOS communications or navigation in these challenging environments can be developed. The finding highlights the importance of considering building height in AG communication for network performance evaluation and design.
期刊介绍:
The prime objective of the International Journal of Microwave and Wireless Technologies is to enhance the communication between microwave engineers throughout the world. It is therefore interdisciplinary and application oriented, providing a platform for the microwave industry. Coverage includes: applied electromagnetic field theory (antennas, transmission lines and waveguides), components (passive structures and semiconductor device technologies), analogue and mixed-signal circuits, systems, optical-microwave interactions, electromagnetic compatibility, industrial applications, biological effects and medical applications.