Analysis of SNR at the Humidity Atmosphere using Millimeter-wave

I. Elmutasim, Izzeldin Ibrahim Mohamed Abdelaziz
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引用次数: 1

Abstract

Air quality is becoming a more serious subject in recent times, particularly when influencing human beings, the environment, and service sectors such as meteorology, healthcare, and wireless communication technology. The public is concerned about atmospheric contents, which could negatively impact while conveying infections, particles, and unwanted gas. The wide affected range of service sectors could become hot weather, which is well known at Qatar state and whole gulf countries. Moreover, the contamination from various manufacturers in desert weather gives a unique opportunity to study the impact of climate behavior and provide attention to the values obtained during the seasons. This work has investigated Qatar's humidity, one of the environmental effects that combine dry air with water vapor and lead to reduced air quality hence the human respiratory health using millimeter-wave frequencies as a promising upcoming technology band. The study utilized a gas path loss model that respects humidity with other parameters to achieve an efficient value reliable wireless communication system to help the cutting-edge innovation suppliers in the comparable areas reinforce the service via accomplishing customer demands. The model uses the highest and lowest humidity values, 29g/m3 and 13g/m3, respectively, in high frequencies and under the two fixed bandwidths 28 and 112 Mbps. The result demonstrated the stark contrast in attenuation values, particularly when reaching the peak humidity that gives notification that the capacity could become swinging even under the fixed bandwidth based on SNR affected by humidity, which shows more influence than other parameters such as temperature and pressure. The work utilizes comprehensively real values to incorporate the influences in link attenuation and capacity throughput to obtain a robust model that would become significant to wireless designers.
基于毫米波的湿度大气信噪比分析
近年来,空气质量正成为一个日益严重的问题,特别是在影响人类、环境以及气象、医疗保健和无线通信技术等服务部门时。公众关注的是大气成分,它可能会产生负面影响,同时传播感染、颗粒和有害气体。受影响范围广泛的服务部门可能会成为炎热的天气,这在卡塔尔和整个海湾国家都是众所周知的。此外,在沙漠天气中,来自各种制造商的污染为研究气候行为的影响提供了一个独特的机会,并提供了对季节期间获得的值的关注。这项工作调查了卡塔尔的湿度,这是一种环境影响,将干燥空气与水蒸气结合起来,导致空气质量下降,因此人类呼吸健康使用毫米波频率作为一个有前途的即将到来的技术波段。本研究利用尊重湿度和其他参数的气路损耗模型,实现高效、价值可靠的无线通信系统,以帮助同类领域的前沿创新供应商通过满足客户需求来加强服务。该模型在高频和28和112 Mbps两个固定带宽下使用最高和最低湿度值,分别为29g/m3和13g/m3。结果显示衰减值的鲜明对比,特别是当达到峰值湿度时,根据受湿度影响的信噪比,即使在固定带宽下,容量也可能出现摆动,这比温度和压力等其他参数的影响更大。这项工作综合利用真实值来考虑链路衰减和容量吞吐量的影响,以获得对无线设计人员具有重要意义的鲁棒模型。
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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