In this paper we study the opportunistic use of microwave satellite signals in the Ku and Ka bands to detect the presence of rain events and to estimate their intensity. This approach, based on measuring the excess signal attenuation due to rain, has the advantage that the potential number of sensors over the territory could be increased dramatically also allowing prospectively the realization of accurate regional rain maps.Moreover, employing the same satellite network whose signals are opportunistically used, the measurements can be easily fed back and universally distributed,contributing to the effective implementation of a nowcasting platform, which could help the timely detection of catastrophic rain events.Results are very promising and show that the already good estimates obtained by using signals in the Ku band can be further improved by using signalsin the Ka band. Unfortunately, as of today,the frequency with which the receivers on the Ka band provide signal measurements is too low for fast changing rain events and how to address this problem is the object of future research.

On the Opportunistic use of Commercial Ku and Ka Band Satcom Networks for Rain Rate Estimation: Potentials and Critical Issues

Giannetti, F.;Moretti, M.
;
Reggiannini, R.;Scarfone, S.;
2020-01-01

Abstract

In this paper we study the opportunistic use of microwave satellite signals in the Ku and Ka bands to detect the presence of rain events and to estimate their intensity. This approach, based on measuring the excess signal attenuation due to rain, has the advantage that the potential number of sensors over the territory could be increased dramatically also allowing prospectively the realization of accurate regional rain maps.Moreover, employing the same satellite network whose signals are opportunistically used, the measurements can be easily fed back and universally distributed,contributing to the effective implementation of a nowcasting platform, which could help the timely detection of catastrophic rain events.Results are very promising and show that the already good estimates obtained by using signals in the Ku band can be further improved by using signalsin the Ka band. Unfortunately, as of today,the frequency with which the receivers on the Ka band provide signal measurements is too low for fast changing rain events and how to address this problem is the object of future research.
2020
978-1-5090-6631-5
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/1042543
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