Neural Networks - 2006 special issue: Earth sciences and environmental applications of computational intelligence
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The paper presents examples of using ANNs and other machine learning (ML) techniques to assess uncertainty of a mathematical (computer-based) model M . Two approaches have been developed to estimate parametric and residual uncertainty, and they were tested on process based hydrological models. One approach emulates computationally expensive Monte Carlo simulations, and the second one uses residuals of a calibrated model M outputs to assess the remaining uncertainty of this model. ML models are trained to approximate the functional relationships between the input (and state) variables of the model M and the uncertainty descriptors. ML model, being trained, encapsulates the information about the model M errors specific for different conditions in the past, and is used to estimate the probability distribution of the model M error for the new model runs. Methods are tested to estimate uncertainty of a conceptual rainfall-runoff model of a catchment in UK.