variance_based_decomp

Activates global sensitivity analysis based on decomposition of response variance into main, interaction, and total effects

Specification

  • Alias: None

  • Arguments: None

  • Default: no variance-based decomposition

Child Keywords:

Required/Optional

Description of Group

Dakota Keyword

Dakota Keyword Description

Optional

interaction_order

Specify the maximum number of variables allowed in an interaction when reporting interaction metrics.

Optional

drop_tolerance

Suppresses output of sensitivity indices with values lower than this tolerance

Description

Dakota can calculate sensitivity indices through variance-based decomposition using the keyword variance_based_decomp. This approach decomposes main, interaction, and total effects in order to identify the most important variables and combinations of variables in contributing to the variance of output quantities of interest.

Default Behavior

Because of processing overhead and output volume, variance_based_decomp is inactive by default, unless required for dimension-adaptive refinement using Sobol’ indices.

Expected Outputs

When variance_based_decomp is specified, sensitivity indices for main effects, total effects, and any interaction effects will be reported. Each of these effects represents the percent contribution to the variance in the model response, where main effects include the aggregated set of em univariate terms for each individual variable, interaction effects represent the set of em mixed terms (the complement of the univariate set), and total effects represent the em complete set of terms (univariate and mixed) that contain each individual variable. The aggregated set of main and interaction sensitivity indices will sum to one, whereas the sum of total effects sensitivity indices will be greater than one due to redundant counting of mixed terms.

Usage Tips

An important consideration is that the number of possible interaction terms grows exponentially with dimension and expansion order. To mitigate this, both in terms of compute time and output volume, possible interaction effects are suppressed whenever no contributions are present due to the particular form of an expansion. In addition, the interaction_order and drop_tolerance controls can further limit the computational and output requirements.

Examples

method,
        polynomial_chaos # or stoch_collocation
          sparse_grid_level = 3
          variance_based_decomp interaction_order = 2

Theory

In this context, we take sensitivity analysis to be global, not local as when calculating derivatives of output variables with respect to input variables. Our definition is similar to that of [STCR04] : “The study of how uncertainty in the output of a model can be apportioned to different sources of uncertainty in the model input.”

Variance based decomposition is a way of using sets of samples to understand how the variance of the output behaves, with respect to each input variable. A larger value of the sensitivity index, \(S_i\) , means that the uncertainty in the input variable i has a larger effect on the variance of the output. More details on the calculations and interpretation of the sensitivity indices can be found in [WKS+12].