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Probabilistic precipitation nowcasting based on an extrapolation of radar reflectivity and an ensemble approach
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SYSNO ASEP 0476481 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Probabilistic precipitation nowcasting based on an extrapolation of radar reflectivity and an ensemble approach Author(s) Sokol, Zbyněk (UFA-U) RID, ORCID
Mejsnar, Jan (UFA-U) RID
Pop, Lukáš (UFA-U) RID, ORCID
Bližňák, Vojtěch (UFA-U) RID, ORCIDNumber of authors 4 Source Title Atmospheric Research. - : Elsevier - ISSN 0169-8095
Roč. 194, 15 September (2017), s. 245-257Number of pages 13 s. Language eng - English Country NL - Netherlands Keywords scale-dependence ; forecast ; predictability ; images ; model ; rainfall ; weather ; analogs ; motion Subject RIV DG - Athmosphere Sciences, Meteorology OECD category Meteorology and atmospheric sciences Institutional support UFA-U - RVO:68378289 UT WOS 000405043700021 EID SCOPUS 85019063324 DOI 10.1016/j.atmosres.2017.05.003 Annotation A new method for the probabilistic nowcasting of instantaneous rain rates (ENS) based on the ensemble technique and extrapolation along Lagrangian trajectories of current radar reflectivity is presented. Assuming inaccurate forecasts of the trajectories, an ensemble of precipitation forecasts is calculated and used to estimate the probability that rain rates will exceed a given threshold in a given grid point. Although the extrapolation neglects the growth and decay of precipitation, their impact on the probability forecast is taken into account by the calibration of forecasts using the reliability component of the Brier score (BS).
ENS forecasts the probability that the rain rates will exceed thresholds of 0.1, 1.0 and 3.0 mm/h in squares of 3 km by 3 km. The lead times were up to 60 min, and the forecast accuracy was measured by the BS. The ENS forecasts were compared with two other methods: combined method (COM) and neighbourhood method (NEI). NEI considered the extrapolated values in the square neighbourhood of 5 by 5 grid points of the point of interest as ensemble members, and the COM ensemble was comprised of united ensemble members of ENS and NEI.
The results showed that the calibration technique significantly improves bias of the probability forecasts by including additional uncertainties that correspond to neglected processes during the extrapolation. In addition, the calibration can also be used for finding the limits of maximum lead times for which the forecasting method is useful. We found that ENS is useful for lead times up to 60 min for thresholds of 0.1 and 1 mm/h and approximately 30 to 40 min for a threshold of 3 mm/h. We also found that a reasonable size of the ensemble is 100 members, which provided better scores than ensembles with 10, 25 and 50 members. In terms of the BS, the best results were obtained by ENS and COM, which are comparable. However, ENS is better calibrated and thus preferable.Workplace Institute of Atmospheric Physics Contact Kateřina Adamovičová, adamovicova@ufa.cas.cz, Tel.: 272 016 012 ; Kateřina Potužníková, kaca@ufa.cas.cz, Tel.: 272 016 019 Year of Publishing 2018
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