RAINBOW: An Operational Oriented Combined IR-Algorithm

RAINBOW: An Operational Oriented Combined IR-Algorithm

In this paper, precipitation estimates derived from the Italian ground radar network (IT GR) are used in conjunction with Spinning Enhanced Visible and InfraRed Imager (SEVIRI) measurements to develop an operational oriented algorithm (RAdar INfrared Blending algorithm for Operational Weather monito...

Full description

Bibliographic Details
Main Authors: Leo Pio D’Adderio, Silvia Puca, Gianfranco Vulpiani, Marco Petracca, Paolo Sanò, Stefano Dietrich
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:Remote Sensing
Subjects:
remote sensing
precipitation
SEVIRI
ground radar
Online Access:https://www.mdpi.com/2072-4292/12/15/2444
id doaj-64c16ad744fb4c02a60fb858937fe112
record_format Article
spelling doaj-64c16ad744fb4c02a60fb858937fe1122020-11-25T03:48:25ZengMDPI AGRemote Sensing2072-42922020-07-01122444244410.3390/rs12152444RAINBOW: An Operational Oriented Combined IR-AlgorithmLeo Pio D’Adderio0Silvia Puca1Gianfranco Vulpiani2Marco Petracca3Paolo Sanò4Stefano Dietrich5CNR-ISAC, Consiglio Nazionale delle Ricerche, Roma, Via del Fosso del Cavaliere 100, 00133 Roma, ItalyDepartment of Civil Protection, Presidency of the Council of Ministers, Via Vitorchiano 2, 00189 Rome, ItalyDepartment of Civil Protection, Presidency of the Council of Ministers, Via Vitorchiano 2, 00189 Rome, ItalyDepartment of Civil Protection, Presidency of the Council of Ministers, Via Vitorchiano 2, 00189 Rome, ItalyCNR-ISAC, Consiglio Nazionale delle Ricerche, Roma, Via del Fosso del Cavaliere 100, 00133 Roma, ItalyCNR-ISAC, Consiglio Nazionale delle Ricerche, Roma, Via del Fosso del Cavaliere 100, 00133 Roma, ItalyIn this paper, precipitation estimates derived from the Italian ground radar network (IT GR) are used in conjunction with Spinning Enhanced Visible and InfraRed Imager (SEVIRI) measurements to develop an operational oriented algorithm (RAdar INfrared Blending algorithm for Operational Weather monitoring (RAINBOW)) able to provide precipitation pattern and intensity. The algorithm evaluates surface precipitation over five geographical boxes (in which the study area is divided). It is composed of two main modules that exploit a second-degree polynomial relationship between the SEVIRI brightness temperature at 10.8 µm TB<sub>10.8 </sub>and the precipitation rate estimates from IT GR. These relationships are applied to each acquisition of SEVIRI in order to provide a surface precipitation map. The results, based on a number of case studies, show good performance of RAINBOW when it is compared with ground reference (precipitation rate map from interpolated rain gauge measurements), with high Probability of Detection (POD) and low False Alarm Ratio (FAR) values, especially for light to moderate precipitation range. At the same time, the mean error (ME) values are about 0 mmh<sup>−1</sup>, while root mean square error (RMSE) is about 2 mmh<sup>−1</sup>, highlighting a limited variability of the RAINBOW estimations. The precipitation retrievals from RAINBOW have been also compared with the European Organization for the Exploitation of Meteorological Satellites (EUMETSAT) Satellite Application Facility on Support to Operational Hydrology and Water Management (H SAF) official microwave (MW)/infrared (IR) combined product (P-IN-SEVIRI). RAINBOW shows better performances than P-IN-SEVIRI, in terms of both detection and estimates of precipitation fields when they are compared to the ground reference. RAINBOW has been designed as an operational product, to provide complementary information to that of the national radar network where the IT GR coverage is absent, or the quality (expressed in terms of Quality Index (QI)) of the RAINBOW estimates is low. The aim of RAINBOW is to complement the radar and rain gauge network supporting the operational precipitation monitoring.https://www.mdpi.com/2072-4292/12/15/2444remote sensingprecipitationSEVIRIground radar
collection DOAJ
language English
format Article
sources DOAJ
author Leo Pio D’Adderio
Silvia Puca
Gianfranco Vulpiani
Marco Petracca
Paolo Sanò
Stefano Dietrich
spellingShingle Leo Pio D’Adderio
Silvia Puca
Gianfranco Vulpiani
Marco Petracca
Paolo Sanò
Stefano Dietrich
RAINBOW: An Operational Oriented Combined IR-Algorithm
Remote Sensing
remote sensing
precipitation
SEVIRI
ground radar
author_facet Leo Pio D’Adderio
Silvia Puca
Gianfranco Vulpiani
Marco Petracca
Paolo Sanò
Stefano Dietrich
author_sort Leo Pio D’Adderio
title RAINBOW: An Operational Oriented Combined IR-Algorithm
title_short RAINBOW: An Operational Oriented Combined IR-Algorithm
title_full RAINBOW: An Operational Oriented Combined IR-Algorithm
title_fullStr RAINBOW: An Operational Oriented Combined IR-Algorithm
title_full_unstemmed RAINBOW: An Operational Oriented Combined IR-Algorithm
title_sort rainbow: an operational oriented combined ir-algorithm
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2020-07-01
description In this paper, precipitation estimates derived from the Italian ground radar network (IT GR) are used in conjunction with Spinning Enhanced Visible and InfraRed Imager (SEVIRI) measurements to develop an operational oriented algorithm (RAdar INfrared Blending algorithm for Operational Weather monitoring (RAINBOW)) able to provide precipitation pattern and intensity. The algorithm evaluates surface precipitation over five geographical boxes (in which the study area is divided). It is composed of two main modules that exploit a second-degree polynomial relationship between the SEVIRI brightness temperature at 10.8 µm TB<sub>10.8 </sub>and the precipitation rate estimates from IT GR. These relationships are applied to each acquisition of SEVIRI in order to provide a surface precipitation map. The results, based on a number of case studies, show good performance of RAINBOW when it is compared with ground reference (precipitation rate map from interpolated rain gauge measurements), with high Probability of Detection (POD) and low False Alarm Ratio (FAR) values, especially for light to moderate precipitation range. At the same time, the mean error (ME) values are about 0 mmh<sup>−1</sup>, while root mean square error (RMSE) is about 2 mmh<sup>−1</sup>, highlighting a limited variability of the RAINBOW estimations. The precipitation retrievals from RAINBOW have been also compared with the European Organization for the Exploitation of Meteorological Satellites (EUMETSAT) Satellite Application Facility on Support to Operational Hydrology and Water Management (H SAF) official microwave (MW)/infrared (IR) combined product (P-IN-SEVIRI). RAINBOW shows better performances than P-IN-SEVIRI, in terms of both detection and estimates of precipitation fields when they are compared to the ground reference. RAINBOW has been designed as an operational product, to provide complementary information to that of the national radar network where the IT GR coverage is absent, or the quality (expressed in terms of Quality Index (QI)) of the RAINBOW estimates is low. The aim of RAINBOW is to complement the radar and rain gauge network supporting the operational precipitation monitoring.
topic remote sensing
precipitation
SEVIRI
ground radar
url https://www.mdpi.com/2072-4292/12/15/2444
work_keys_str_mv AT leopiodadderio rainbowanoperationalorientedcombinediralgorithm
AT silviapuca rainbowanoperationalorientedcombinediralgorithm
AT gianfrancovulpiani rainbowanoperationalorientedcombinediralgorithm
AT marcopetracca rainbowanoperationalorientedcombinediralgorithm
AT paolosano rainbowanoperationalorientedcombinediralgorithm
AT stefanodietrich rainbowanoperationalorientedcombinediralgorithm
_version_ 1724499207308443648

Similar Items