Ensemble model to enhance robustness of flash flood forecasting using an Artificial Neural Network: case-study on the Gardon Basin (south-eastern France)

T. Darras; A. Johannet; B.  Vayssade; L.  Kong-A-Siou; S. Pistre

doi:10.21701/bolgeomin.129.3.007

Authors

T. Darras LGEI, Ecole des Mines d’Alès, 6 Avenue de Clavières, Univ Montpellier - Hydrosciences, Univ Montpellier
A. Johannet LGEI, Ecole des Mines d’Alès, 6 Avenue de Clavières, Univ Montpellier
B. Vayssade LGEI, Ecole des Mines d’Alès, 6 Avenue de Clavières, Univ Montpellier
L. Kong-A-Siou ENSEGID
S. Pistre Hydrosciences, Univ Montpellier

DOI:

https://doi.org/10.21701/bolgeomin.129.3.007

Keywords:

cross validation, flash flood, forecasting, model selection, neural network

Abstract

During the last few decades neural networks have been increasingly used in hydrological modelling for their fundamental property of parsimony and of universal approximation of non-linear functions. For the purpose of flash flood forecasting, feed-forward and recurrent multi-layer perceptrons appear to be efficient tools. Nevertheless, their forecasting performances are sensitive to the initialization of the network parameters. We have studied the cross-validation efficiency to select initialization providing the best forecasts in real time situation. Sensitivity to initialization of feed-forward and recurrent models is compared for one-hour lead-time forecasts. This study shows that cross-validation is unable to select the best initialization. A more robust model has been designed using the median of several models outputs; in this context, this paper analyses the design of the ensemble model for both recurrent and feed-forward models.

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