Radar and satellite structured algorithm system for the ... - FLOODsite
Radar and satellite structured algorithm system for the ... - FLOODsite
Radar and satellite structured algorithm system for the ... - FLOODsite
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<strong>Radar</strong> Structured Algorithm System (2/2)<br />
<strong>Radar</strong> SAS assessment:<br />
Bollène 2002 experiment: evaluation of several radar<br />
QPE strategies (including or not <strong>the</strong> space-time adaptive<br />
<strong>algorithm</strong>s) with respect to raingauge reference rainfall<br />
– INPG<br />
Application of <strong>the</strong> “Generalized likelihood uncertainty<br />
estimation (GLUE)” to radar SAS – uncertainty related to<br />
parameterization – structural deficiency of <strong>the</strong><br />
processing <strong>algorithm</strong>s UniPad<br />
Satellite Structured Algorithm System - TUD<br />
Meteosat 6 Rapid Scan:<br />
6 estimation methods: GWT, AE, GMSRA, Grose et al., ECST,<br />
“Combined Method” from TUD<br />
Use of auxiliary in<strong>for</strong>mation (DTM, wind <strong>and</strong> moisture fields)<br />
Assessment <strong>for</strong> <strong>the</strong> French Gard 2002 case <strong>and</strong> <strong>the</strong> Italian<br />
Val Pustiria 2005 case<br />
Meteosat Second generation:<br />
4 estimation methods: AE, ECST, GOES, Kurino et al.<br />
Use of auxiliary in<strong>for</strong>mation<br />
Assessment <strong>for</strong> <strong>the</strong> Italian Val Pustiria 2005 case <strong>and</strong> <strong>the</strong><br />
German Elbe 2006 case