Refining the Committee Approach and Uncertainty Prediction in Hydrological Modelling

Refining the Committee Approach and Uncertainty Prediction in Hydrological Modelling

AngličtinaMäkká väzbaTlač na objednávku
Kayastha Nagendra
Taylor & Francis Ltd
EAN: 9781138027466
Tlač na objednávku
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Podrobné informácie

Due to the complexity of hydrological systems a single model may be unable to capture the full range of a catchment response and accurately predict the streamflows. A solution could be the in use of several specialized models organized in the so-called committees. Refining the committee approach is one of the important topics of this study, and it is demonstrated that it allows for increased predictive capability of models.

Another topic addressed is the prediction of hydrologic models’ uncertainty. The traditionally used Monte Carlo method is based on the past data and cannot be directly used for estimation of model uncertainty for the future model runs during its operation. In this thesis the so-called MLUE (Machine Learning for Uncertainty Estimation) approach is further explored and extended; in it the machine learning techniques (e.g. neural networks) are used to encapsulate the results of Monte Carlo experiments in a predictive model that is able to estimate uncertainty for the future states of the modelled system.

Furthermore, it is demonstrated that a committee of several predictive uncertainty models allows for an increase in prediction accuracy. Catchments in Nepal, UK and USA are used as case studies.

In flood modelling hydrological models are typically used in combination with hydraulic models forming a cascade, often supported by geospatial processing. For uncertainty analysis of flood inundation modelling of the Nzoia catchment (Kenya) SWAT hydrological and SOBEK hydrodynamic models are integrated, and the parametric uncertainty of the hydrological model is allowed to propagate through the model cascade using Monte Carlo simulations, leading to the generation of the probabilistic flood maps. Due to the high computational complexity of these experiments, the high performance (cluster) computing framework is designed and used.

This study refined a number of hydroinformatics techniques, thus enhancing uncertainty-based hydrological and integrated modelling.

EAN 9781138027466
ISBN 1138027464
Typ produktu Mäkká väzba
Vydavateľ Taylor & Francis Ltd
Dátum vydania 5. januára 2015
Stránky 212
Jazyk English
Rozmery 246 x 174
Krajina United Kingdom
Autori Kayastha Nagendra
Séria IHE Delft PhD Thesis Series