论文信息 - Uncertainty Quantification During Integral Validation: Estimating Parametric, Model Form, and Solution Contributions

Uncertainty Quantification During Integral Validation: Estimating Parametric, Model Form, and Solution Contributions

One of the final steps in building a numerical model of a physical, mechanical, thermal, or chemical process is to assess its accuracy as well as its sensitivity to input parameters and modeling technique. In this work, we demonstrate one simple process to take a top-down or integral view of the model, one which can implicitly reflect any couplings between parameters, to assess the importance of each aspect of modeling technique. We illustrate with an example of a comparison of a finite element model with data for violent reaction of explosives in accident scenarios. We show the relative importance of each of the main parametric inputs, and the contributions of model form and grid convergence. These can be directly related to the importance factors for the system being analyzed as a whole, and help determine which factors need more attention in future analyses and tests.

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