Abstract
Satellite tropospheric propagation studies strongly rely on beacon receiver measurements. We were interested in performing a measurement campaign to characterize rain attenuation statistics. In this article, we outline some of the characteristics and drawbacks one faces when trying to perform a radio wave satellite beacon propagation experiment at the Ka-band with low-cost measurement equipment. We used an affordable beacon receiver consisting of a commercial low-noise block down-converter, an outdoor dual-reflector antenna, and a software-defined radio unit. To measure rain attenuation events, we needed to work out where the reference signal level was at all times. However, as we did not have a radiometer to remove the impact of gases and clouds, since it is a very expensive device, we used a procedure that involved the subtraction of a stable and reliable reference level (template) from the raw received beacon level. This template was extracted from observations during non-rainy periods. The procedure implemented for extracting the template was based on the same data processing methodology used by other authors in this field. Here, we describe through specific examples the main characteristics of the templates extracted on non-rainy days, as well as the impact of some meteorological parameters and unavoidable, but small antenna pointing errors.
Highlights
A measurement campaign recording the Ka-band beacon transmitted by the KaSAT satellite is being carried out at the University of Vigo campus in Vigo (Spain)
The beacon receiver is a simple, affordable one with a commercial Low-Noise Block down-converter (LNB), an outdoor dual reflector antenna fitted with a radome, and a Software-Defined Radio (SDR)
As the receiver is sited close to Vigo Airport, cloudiness data are available via METeorological Aerodrome Report (METAR) files
Summary
A measurement campaign recording the Ka-band beacon transmitted by the KaSAT satellite is being carried out at the University of Vigo campus in Vigo (Spain). This location, on the NW coast of Spain, corresponds to a temperate, oceanic climate. Meteorological information is obtained from a co-located weather station. As the receiver is sited close to Vigo Airport, cloudiness data are available via METeorological Aerodrome Report (METAR) files. This experiment complements another on-going one (running since 2015) at Ka- and
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