Abstract
This study investigates the effect of some radio climatic factors on the Received Signal Strength (RSS) of a Digital Terrestrial Television Broadcast Station (DTTBS) in Katsina City, Nigeria. The RSS was measured at intervals along selected routes around the station using a digital signal strength meter. GPS receiver was used to log the line of sight, geographic coordinates and heights of data points from the station. The atmospheric pressure, temperature and humidity corresponding to data points were concurrently measured using a compact weather station whereas the corresponding surface radio refractivity (Ns) values were computed. Data were collected during dry and wet season months’ in the year 2017. Results shown that, Ns is inversely proportional to RSS irrespective of routes and seasons with correlation coefficients of -0.51 and -0.57 during dry and wet season months respectively. Higher mean value of, 358.50 (N-units) was deduced during wet compared to the dry season months of 301.20 (N-units). Average atmospheric pressure of 951.92 and 949.61 (hPa) and as well as humidity values of 32.25 and 77.93 %RH were deduced during dry and wet season months’ respectively. Findings also show that pressure is inversely proportional to RSS. The overall effects of pressure, temperature and humidity on RSS is better understood using the effect of Ns since the latter is derived from those parameters. This study concludes that the specified radio climatic factors have attenuation effect on UHF signal and should be put into consideration when planning link’s design and power budgets on the UHF band.
Highlights
Analogue and digital terrestrial transmission of signal on the Ultra High Frequency (UHF) broadcast band is by space wave which propagates on Line of Sight (LOS) from the transmitter to the receiver through the troposphere (Akinbolati et al, 2017)
From the results; lower signal strengths were received at higher values of surface radio refractivity (Ns) irrespective of the seasons
Higher mean value of Ns, was deduced during wet compared to dry season months with statistical correlation coefficients of -0.51 and -0.57 obtained between Ns and Received Signal Strength (RSS) during dry and wet season months respectively
Summary
Analogue and digital terrestrial transmission of signal on the Ultra High Frequency (UHF) broadcast band is by space wave which propagates on Line of Sight (LOS) from the transmitter to the receiver through the troposphere (Akinbolati et al, 2017). For stakeholders to enjoy Quality of Service (QOS) of transmitted wireless signal in the UHF band, the attenuation effect of surface radio refractivity and meteorological parameters which forms parts of the path losses should be investigated across climatic zones and factored into transmission’s links’ design and power budget (Akinwumi et al, 2015; Akingbade and Olorunnibi, 2013). This work investigates the attenuation effects of humidity, temperature, atmospheric pressure and surface radio Study Areas and the Experimental Station refractivity on digital terrestrial television base station operating on UHF channel 28, Katsina in the Sahel Savannah zone of The Digital Terrestrial Television Base Station (DTTBS) of Star. (level of attenuation) of some radio climatic factors such as; Table 1 presents the transmission parameters of the temperature, pressure, humidity (primary radio climatic factors) experimental station
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