Multisite temporal rainfall disaggregation using methods of fragments conditioned on circulation patterns
Author:
Funder
BMBF Berlin
Bundesministerium für Bildung und Forschung
China Scholarship Council
Publisher
Elsevier BV
Subject
Water Science and Technology
Reference30 articles.
1. A new magnitude category disaggregation approach for temporal high-resolution rainfall intensities;Anis;Hydrol. Process.,2015
2. Evaluation and comparison of circulation type classifications for the European domain;Beck;Phys Chem Earth,2010
3. Space-time disaggregation of precipitation and temperature across different climates and spatial scales;Breinl;Journal of Hydrology-Regional Studies,2019
4. A joint modelling framework for daily extremes of river discharge and precipitation in urban areas;Breinl;J. Flood Risk Manage.,2017
5. Exploiting the spatial pattern of daily precipitation in the analog method for regional temporal disaggregation;Carreau;J. Hydrol.,2019
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