The estimation of water vapor (WV) content in the lowest part of the troposphere is a critical issue which, up to now, cannot be obtained from space measurements with sufficient accuracy. A new technique, which is based on Ku-K band microwave measurements of the differential attenuation of two signals transmitted at closely spaced frequencies, has been recently proposed. In order to prove the effectiveness of this technique a low-cost microwave instrumentation was designed and the first measurements were performed by means of a ground-to-ground link. Instrument design and characteristics, as well the results of the first measurement campaign are presented here.
Atmospheric Integrated Water Vapor Estimation Through Microwave Propagation Measurements Along Ground-To-Air Radio Links / A. Toccafondi, F. Puggelli, M. Albani, L. Facheris, F. Cuccoli, G. Macelloni, F. Montomoli, A. Cucini, F. Mariottini, L. Volpi, D. Dei, M. Gai. - ELETTRONICO. - (2019), pp. 1-4. (Intervento presentato al convegno 13th European Conference on Antennas and Propagation (EuCAP) tenutosi a Cracovia (Polonia) nel 31 marzo-5 aprile 2019).
Atmospheric Integrated Water Vapor Estimation Through Microwave Propagation Measurements Along Ground-To-Air Radio Links
L. Facheris;
2019
Abstract
The estimation of water vapor (WV) content in the lowest part of the troposphere is a critical issue which, up to now, cannot be obtained from space measurements with sufficient accuracy. A new technique, which is based on Ku-K band microwave measurements of the differential attenuation of two signals transmitted at closely spaced frequencies, has been recently proposed. In order to prove the effectiveness of this technique a low-cost microwave instrumentation was designed and the first measurements were performed by means of a ground-to-ground link. Instrument design and characteristics, as well the results of the first measurement campaign are presented here.
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