Geoclimatic characterization and latitudinal dependence of rain heights over Nigeria
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Date
2021-04-06
Journal Title
Journal ISSN
Volume Title
Publisher
IOP Publishing
Abstract
Attenuation due to rain remains the most severe threat to terrestrial and satellite
communication links in the tropics. Rain height is a precipitation parameter that plays important
role in the determination of rain-induced attenuation. In this paper, a statistical study was carried
out to establish the relationship between rain height and earth station latitude using rain heights
derived from Zero Degree Isotherm Height (ZDIH) data retrieved from Global Precipitation
Measurement (GPM). A strong positive correlation of 0.83 propelled the attempt to model
equations for the estimation of rain height based on latitude. The research recommends a
polynomial function of order 3 which has the best coefficient of determination (0.8). The annual
mean values of rain heights were also computed and recommended for each of the four geo
climatic zones in Nigeria.
Description
Attenuation due to rain remains the most severe threat to terrestrial and satellite
communication links in the tropics. Rain height is a precipitation parameter that plays important
role in the determination of rain-induced attenuation. In this paper, a statistical study was carried
out to establish the relationship between rain height and earth station latitude using rain heights
derived from Zero Degree Isotherm Height (ZDIH) data retrieved from Global Precipitation
Measurement (GPM). A strong positive correlation of 0.83 propelled the attempt to model
equations for the estimation of rain height based on latitude. The research recommends a
polynomial function of order 3 which has the best coefficient of determination (0.8). The annual
mean values of rain heights were also computed and recommended for each of the four geo
climatic zones in Nigeria.
Keywords
Attenuation, Rain Height, GPM, ZDIH, Geoclimatic Zone