Abstract
Geoclimatic factor variable is one of the most important radio climatic variables in the planning of the radio links in any region. A fade margin that takes into account multipath fading has to be incorporated in the link budget in the design of terrestrial line of sight communication system. This work involves the determination of the refractivity gradient over the first 100 m above ground level in Nigeria and by using the determined refractivity gradient, the geo-climatic factor (K) was calculated for typical links in Nigeria. The Geo-climatic factor (K) for the six major cities representing each geopolitical zone in Nigeria is determined in-order to improve future planning of the radio links in the regions. Measurement of meteorological parameters for five years taken in Ikeja, Lagos (Latitude 6º27´11´´N, Longitude 3º23´44´´E), Enugu (Latitude 6º27´35.8704´´N, Longitude 7º32´56.2164´´E), Kaduna (Latitude 10º31´23´´N, Longitude 7º26´25´´E), Port Harcourt (Latitude 4º47´21´´N, Longitude 6º59´54´´E), Kano (Latitude 12º3’N,Longitude 8º32´N) and Abuja (Latitude 9º10´32´´N Longitude 7º10´50´´E) were employed to estimate the country value of K. The pressure, P(hPa), temperature, T(ºC) and the relative humidity, (%), for the six location used were taken for a period of five years (2011-2015). The value of humidity were converted to water vapour pressure, e(hPa). In processing of the data, the average values of each month collected over a period of five years was used. The monthly data was used to calculate the values of the refractivity at the ground level and at 100 m altitude. From the calculated values of refractivity,the values of the refractivity gradient of heights of 65 m and at 100 m was computed and thereafter the geo-climatic factor (K) was calculated for the six geopolitical region of the country.
Highlights
Line-of-sight radio links has a very huge effect on long distance communication networks
That there is higher demand for bandwidth that could be supported by recent developments in radio communication technology, reliable and efficient performance of radio link are needed for the transmission of high quality signals
This work involves the determination of the refractivity gradient over the first 100 m above ground level in Nigeria, using the calculated refractivity gradient, this will lead to the determination of the geo-climatic factor (K) for typical links in Nigeria
Summary
Line-of-sight radio links has a very huge effect on long distance communication networks. Whenever there is a poor propagation conditions, fluctuation of the output signal would be resulted to, leading to fades on microwave links [1]. This occurrence affects the transmitted signal, and the overall communication system may not perform well [2]. While designing a highly reliable radio communication network, these fades or signal variations are to be put into consideration [3] In resolving this deficiency related to radio propagation in different areas of the world, various techniques have been proposed by many authors.
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