2013
DOI: 10.5194/hess-17-5109-2013
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From maps to movies: high-resolution time-varying sensitivity analysis for spatially distributed watershed models

Abstract: Abstract. Distributed watershed models are now widely used in practice to simulate runoff responses at high spatial and temporal resolutions. Counter to this purpose, diagnostic analyses of distributed models currently aggregate performance measures in space and/or time and are thus disconnected from the models' operational and scientific goals. To address this disconnect, this study contributes a novel approach for computing and visualizing time-varying global sensitivity indices for spatially distributed mod… Show more

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Cited by 58 publications
(54 citation statements)
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References 42 publications
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“…Instead, there tend to be multiple parameter sets that satisfy the observations; in hydrology this is known as model parameter equifinality (Beven, 2006). Although the performance might be similar for a given calibration metric, the results can vary significantly when comparing other metrics, timescales, or variables (Gupta et al, 2008;Herman et al, 2013;Wagener and Gupta, 2005;Reusser and Zehe, 2011;Reusser et al, 2009;Clark and Vrugt, 2006).…”
Section: N W Chaney Et Al: Flood and Drought Hydrologic Monitoringmentioning
confidence: 99%
“…Instead, there tend to be multiple parameter sets that satisfy the observations; in hydrology this is known as model parameter equifinality (Beven, 2006). Although the performance might be similar for a given calibration metric, the results can vary significantly when comparing other metrics, timescales, or variables (Gupta et al, 2008;Herman et al, 2013;Wagener and Gupta, 2005;Reusser and Zehe, 2011;Reusser et al, 2009;Clark and Vrugt, 2006).…”
Section: N W Chaney Et Al: Flood and Drought Hydrologic Monitoringmentioning
confidence: 99%
“…is widely used in the literature (e.g., Homma and Saltelli, 1996;Chun et al, 2000;Borgonovo, 2007;Sudret, 2008;A. Dell'Oca et al: Global sensitivity analysis of hydrological systems …”
Section: Ishigami Functionmentioning
confidence: 99%
“…In light of the above mentioned studies, U-SA is essential to increase the credibility of the UG-LUC models, as well as to test the model robustness in producing realistic outputs for future implementations (Jantz et al 2003, Jantz and Goetz 2005, Kim 2013). Additionally, a spatially-explicit approach is also crucial for spatial models that do not entirely depend on scalar inputs but that are also affected by spatial relationships (Herman et al 2013, Abily et al 2016, Variance, which is a central measure in error propagation and SA, allows partitioning the effects of uncertainty in the input factors on model output (Kyriakidis and Goodchild 2006). There is a range of different theoretical and methodological approaches to variance-based SA in the literature.…”
Section: Sleuth For Urban Growth and Land-use Change Modelingmentioning
confidence: 99%
“…In particular, an uncertainty and SA (U-SA) approach that is both independent from model structure and capable of handling interaction effects is important for complex, nonlinear models (Halls 2002, Chen et al 2010, Roura-Pascual et al 2010, Moreau et al 2013, Xu and Zhang 2013, Saint-Geours et al 2014. Moreover, for spatio-temporal models, where the simulation results are spatially distributed, it is additionally important to identify not only the source(s) of uncertainty but also its location(s) at a specific time (Herman et al 2013, Abily et al 2016. The resulting uncertainty maps can assist in locating uncertainty hot spots, and the sensitivity maps help further in identifying the spatial pattern of influential input factors behind the areas of high uncertainty (Ligmann-Zielinska 2013, Şalap-Ayça and Jankowski 2016).…”
Section: Introductionmentioning
confidence: 99%