A. Dissanayake scite author profile

The rapid growth of satellite services using higher frequency bands such as the Ka-band has highlighted a need for estimating the combined effect of different propagation impairments. Many projected Ka-band services will use very small terminals and, for some, rain effects may only form a relatively small part of the total propagation link margin. It is therefore necessary to identify and predict the overall impact of every significant attenuating effect along any given path. A procedure for predicting the combined effect of rain attenuation and several other propagation impairments along earth-satellite paths is presented. Where accurate model exist for some phenomena, these have been incorporated into the prediction procedure. New models were developed, however, for rain attenuation, cloud attenuation, and low-angle fading to provide more overall accuracy, particularly at very low elevation angles (<10°). In the absence of a detailed knowledge of the occurrence probabilities of different impairments, an empirical approach is taken in estimating their combined effects. An evaluation of the procedure is made using slant-path attenuation data that have been collected with simultaneous beacon and radiometer measurements which allow a near complete account of different impairments. Results indicate that the rain attenuation element of the model provides the best average accuracy globally between 10 and 30 GHz and that the combined procedure gives prediction accuracies comparable to uncertainties associated with the year-to-year variability of path attenuation. Index Terms-Microwave radio propagation meteorological factors, Satellite communication. I. INTRODUCTION Rapid growth in new satellite services incorporating Very Small Aperture Terminals (VSAT) and Ultra Small Aperture Terminals (USAT) is expected in the coming years. Small size terminals allow for widespread use of satellite services in small business and domestic applications. Some of the services that can benefit from small

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Cloud attenuation modelling for SHF and EHF applications

Dissanayake

Allnutt

Haidara

2001

Int. J. Satell. Commun.

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SUMMARYTropospheric propagation impairments that a!ect earth}space communication signals increase in severity with the increase of frequency. Introduction of satellite services using higher frequency bands such as Kaand V-band requires the characterization of propagation factors that are normally considered negligible at lower frequency bands. Cloud attenuation is considered one such factor. Clouds are present during a large fraction of an average year and cloud attenuation, together with gaseous absorption, will determine the system performance under non-rainy conditions. A cloud attenuation model that has global applicability is presented in this paper. The model is based on average properties of four cloud types and their occurrence probabilities. The occurrence probabilities are derived from long-term observations of cloud cover carried out by several thousand meteorological stations throughout the world. Predictions made with the model are compared with cloud attenuation data gathered using Ka-band beacon signals and radiometers.

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Three-site space-diversity experiment at 20 GHz using ACTS in the Eastern United States

Goldhirsh

Musiani

Dissanayake³

et al. 1997

Proc. IEEE

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ACTS propagation experiment: attenuation distribution observations and prediction model comparisons

Crane¹,

Dissanayake²

1997

Proc. IEEE

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Prospects for commercial satellite services at Q- and V-bands

Evans

Dissanayake

1999

Acta Astronautica

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A. Dissanayake

A prediction model that combines rain attenuation and other propagation impairments along Earth-satellite paths

Cloud attenuation modelling for SHF and EHF applications

Three-site space-diversity experiment at 20 GHz using ACTS in the Eastern United States

ACTS propagation experiment: attenuation distribution observations and prediction model comparisons

Prospects for commercial satellite services at Q- and V-bands

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