Abstract
Cloud cover statistics, cloud base and top height, cloud temperature, frequency of precipitation, freezing height, total cloud liquid water content (TCLWC) and cloud attenuation data have been obtained for the six major climatic zones of Africa. The present results reveal a strong positive correlation between the monthly distribution of low cloud cover, cloud top height, cloud temperature, and frequency of precipitation in the six zones. The cumulative distribution of the TCLWC derived from radiosonde measurement in each climatic zone shows a departure from the TCLWC recommended by the ITU Study Group 3 data, with an exceedance percentage difference of 32% to 90% occurring 0.01% to 10% of the time. The underestimation of the TCLWC is greatest in the tropical rain forest. A comparison of the cloud attenuation cumulative distribution in the Ka and V bands reveals that the International Telecommunication Union – Region (ITU-R) is an intergovernmental organization that develops rain model based on collected data around the world. This model underestimates the cloud attenuation in all of the six climatic zones by 2.0 dB and 4.7 dB for the arid Sahara desert, 1.3 dB and 3.0 dB in semi-arid North Africa, 1.3 dB and 1.5 dB in savannah North Africa, 2.0 dB and 3.6 dB in the tropical rain forest, 1.3 dB and 2.9 dB in savannah South Africa and 0.9 dB and 2.6 dB in semi-arid South Africa, respectively, at 30 and 50 GHz. Overall, the cloud attenuation in the tropical rain-forest zone is very high because of the high annual total cloud cover(98%), high annual frequency of precipitation (4.5), low annual clear sky amount (8%), high cloud depth (10,937 m), high 0°C isotherm height (4.7 km), high TCLWC (4.0 kg/m2 at 0.01%) and low seasonal cloud base height (356 m).
Highlights
Raincis considered to be most important attenuator for high-availability satellite links
The monthly low cloud cover reaches its maximum in August in the four climatic zones in northern Africa, whereas it reaches its minimum in August in the southern climatic zones (South African savannah and semi-arid South Africa maximum in January)
2011), the cloud cover statistics, cloud base height, top height, cloud temperature, frequency of precipitation, freezing height, total cloud liquid water content (TCLWC) and cloud attenuation have been determined for the six major climatic zones of Africa
Summary
Raincis considered to be most important attenuator for high-availability satellite links. The mean cloud temperature and cloud top height were obtained from the International Satellite Cloud Climatology Project (ISCCP, 1983-2008) and the Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO, 2006-2011) data, respectively, for the six climate zones. The Salonen and Uppala and ITU-R models have been reported to produce the best estimates of cloud attenuation, based on experimental data in the equatorial and tropical climates [Mandeep and Hassan 2008]. These models are effective because the cloud attenuation component is obtained from the liquid water content, which is calculated. Integrating the LWC profile over height, the total value of LWC is obtained at each ascent [Chakraborty and Animesh 2012]
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