Impact of Attenuation due to Atmospheric Gases on the Communication Signal for fixed Satellite Links in Abuja, North Central Nigeria

FUOYE Journal of Engineering and Technology Pub Date : 2022-12-25 DOI:10.46792/fuoyejet.v7i4.907

M. Olla, O. Akinsanmi, Ilesanmi Banjo Oluwafemi, O. S. Ayodele

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Abstract

Reliable microwave link system requires models that are location-dependent with meteorological data from location of consideration. Adaptation of models and analytical data from a location with different climatological pattern often prove inadequate when used for another location. Hence, prediction of attenuation attributed to water vapor and oxygen in Abuja (9.0765⁰ N, 7.3986⁰ E), Nigeria requires development of mathematical model using Meteorological data (pressure, temperature and water vapor) for the study area at range of five (5) years. Thereafter, the newly developed models (gaussian, exponential and linear models) were applied to derive new analytical parameters in a wide frequency range from K band, Ka band, X band, Ku band, S band and C band respectively for both the oxygen and water vapor in Abuja (North Central). The proposed model therefore, show significant improvement over the ITU-R model in the sense that, Root Mean Square Error (RMSE) obtained for X-band, Ka-band, S-band and C-band frequency bands is lower than those obtained for ITU-R model.

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大气气体对尼日利亚中北部阿布贾固定卫星链路通信信号衰减的影响

可靠的微波链路系统需要基于位置的气象数据模型。在另一个地点使用具有不同气候型态的地点的模式和分析数据时，往往证明是不适当的。因此，在尼日利亚阿布贾(9.0765⁰N, 7.3986⁰E)预测水汽和氧气的衰减需要在五(5)年的范围内使用研究区域的气象数据(压力、温度和水蒸气)开发数学模型。然后，应用新建立的模型(高斯、指数和线性模型)分别推导出阿布贾(中北部)氧和水蒸气在K、Ka、X、Ku、S和C波段宽频率范围内的新的解析参数。因此，与ITU-R模型相比，本文提出的模型在x、ka、s和c频段的均方根误差(RMSE)均低于ITU-R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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FUOYE Journal of Engineering and Technology

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