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Proceedings Paper

Joint use of weather radars, satellites, and rain gauge for precipitation monitoring
Author(s): A. Antonini; S. Melani; A. Mazza; A. Ortolani
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Paper Abstract

Intense precipitation phenomena occurring over the Tyrrhenian area between Tuscany, Corse Sardinia, and Liguria very often cause floods with considerable socio-economic damages. The need of monitoring such events has led to the implementation of an observing weather radar network: it firstly started with an S-band radar in Corse, three C-band radars in Liguria, Tuscany and Sardinia. Recently, the implementation of an X–band network of three radars in Tuscany and two further C-band radars in Sardinia completed the network. This work shows how this network can be used for the characterization of weather events, following their development and dynamics and providing some information about their possible evolution. Furthermore, the use of meteorological satellites observations can upscale the area of interest to the mesoscale level and provide an enlarged temporal overview. For instance, the Meteosat Second Generation satellites provide useful information about the air mass distribution, convective phenomena occurrence and microphysics in the observed scene, by combining different spectral channels. Finally, ground based observations are meaningful for assessing the observing capabilities of other instruments and for characterizing the effects on soil surface. For some selected case studies, the different observing instruments were compared and a methodology to integrate them synergically is presented and tested. Weather radars correctly detect the rainfall systems and their motion in all the case studies. Clearly, the higher spatial resolution of X-band radars allows detecting the different precipitation areas with great spatial details, while C- and S-band radars can detect phenomena at higher distances. Satellites images have lower spatial resolutions but especially thanks to the RSS (Rapid Scan Service) they can help to detect the growing or dissipating stage of the whole phenomena. Moreover the ground-based network confirms its relevance in improving the identification of the precipitation intensity and in reducing the number of false alarms.

Paper Details

Date Published: 2 October 2017
PDF: 9 pages
Proc. SPIE 10424, Remote Sensing of Clouds and the Atmosphere XXII, 104240J (2 October 2017); doi: 10.1117/12.2278409
Show Author Affiliations
A. Antonini, Lab. per la Meteorologia e la Modellistica Ambientale (Italy)
S. Melani, Lab. per la Meteorologia e la Modellistica Ambientale (Italy)
CNR IBIMET - National Research Council Institute of Biometeorology (Italy)
A. Mazza, Lab. per la Meteorologia e la Modellistica Ambientale (Italy)
CNR IBIMET - National Research Council Institute of Biometeorology (Italy)
A. Ortolani, Lab. per la Meteorologia e la Modellistica Ambientale (Italy)
CNR IBIMET - National Research Council Institute of Biometeorology (Italy)


Published in SPIE Proceedings Vol. 10424:
Remote Sensing of Clouds and the Atmosphere XXII
Adolfo Comerón; Evgueni I. Kassianov; Klaus Schäfer, Editor(s)

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