Global sensitivity analysis and adaptive stochastic sampling of a subsurface-flow model using active subspaces

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dc.contributor.author Erdal, Daniel
dc.contributor.author Cirpka, Olaf A.
dc.date.accessioned 2019-09-18
dc.date.accessioned 2019-10-31T12:51:04Z
dc.date.available 2019-10-31T12:51:04Z
dc.identifier 10.5194/hess-23-3787-2019
dc.identifier https://www.hydrol-earth-syst-sci.net/23/3787/2019/
dc.identifier.uri http://hdl.handle.net/10900/94104
dc.identifier.uri http://dx.doi.org/10.15496/publikation-35488
dc.description <p>Integrated hydrological modeling of domains with complex subsurface features requires many highly uncertain parameters. Performing a global uncertainty analysis using an ensemble of model runs can help bring clarity as to which of these parameters really influence system behavior and for which high parameter uncertainty does not result in similarly high uncertainty of model predictions. However, already creating a sufficiently large ensemble of model simulation for the global sensitivity analysis can be challenging, as many combinations of model parameters can lead to unrealistic model behavior. In this work we use the method of active subspaces to perform a global sensitivity analysis. While building up the ensemble, we use the already-existing ensemble members to construct low-order meta-models based on the first two active-subspace dimensions. The meta-models are used to pre-determine whether a random parameter combination in the stochastic sampling is likely to result in unrealistic behavior so that such a parameter combination is excluded without running the computationally expensive full model. An important reason for choosing the active-subspace method is that both the activity score of the global sensitivity analysis and the meta-models can easily be understood and visualized. We test the approach on a subsurface-flow model including uncertain hydraulic parameters, uncertain boundary conditions and uncertain geological structure. We show that sufficiently detailed active subspaces exist for most observations of interest. The pre-selection by the meta-model significantly reduces the number of full-model runs that must be rejected due to unrealistic behavior. An essential but difficult part in active-subspace sampling using complex models is approximating the gradient of the simulated observation with respect to all parameters. We show that this can effectively and meaningfully be done with second-order polynomials.</p>
dc.format application/pdf
dc.language eng
dc.source eISSN: 1607-7938
dc.title Global sensitivity analysis and adaptive stochastic sampling of a subsurface-flow model using active subspaces
dc.type Text


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