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The Bhattacharyya distance: enriching the P-box in stochastic sensitivity analysis

The Bhattacharyya distance: enriching the P-box in stochastic sensitivity analysis
The Bhattacharyya distance: enriching the P-box in stochastic sensitivity analysis

The tendency of uncertainty analysis has promoted the transformation of sensitivity analysis from the deterministic sense to the stochastic sense. This work proposes a stochastic sensitivity analysis framework using the Bhattacharyya distance as a novel uncertainty quantification metric. The Bhattacharyya distance is utilised to provide a quantitative description of the P-box in a two-level procedure for both aleatory and epistemic uncertainties. In the first level, the aleatory uncertainty is quantified by a Monte Carlo process within the probability space of the cumulative distribution function. For each sample of the Monte Carlo simulation, the second level is performed to propagate the epistemic uncertainty by solving an optimisation problem. Subsequently, three sensitivity indices are defined based on the Bhattacharyya distance, making it possible to rank the significance of the parameters according to the reduction and dispersion of the uncertainty space of the system outputs. A tutorial case study is provided in the first part of the example to give a clear understanding of the principle of the approach with reproducible results. The second case study is the NASA Langley challenge problem, which demonstrates the feasibility of the proposed approach, as well as the Bhattacharyya distance metric, in solving such a large-scale, strong-nonlinear, and complex problem.

Bhattacharyya distance, Probability box, Sensitivity analysis, Uncertainty propagation, Uncertainty quantification
0888-3270
265-281
Bi, Sifeng
93deb24b-fda1-4b18-927b-6225976d8d3f
Broggi, Matteo
104881e3-cd8d-4909-9049-a914be5ee548
Wei, Pengfei
dda4e34f-5216-41f4-9708-1ca9e56c243b
Beer, Michael
e44760ce-70c0-44f2-bb18-7197ba142788
Bi, Sifeng
93deb24b-fda1-4b18-927b-6225976d8d3f
Broggi, Matteo
104881e3-cd8d-4909-9049-a914be5ee548
Wei, Pengfei
dda4e34f-5216-41f4-9708-1ca9e56c243b
Beer, Michael
e44760ce-70c0-44f2-bb18-7197ba142788

Bi, Sifeng, Broggi, Matteo, Wei, Pengfei and Beer, Michael (2019) The Bhattacharyya distance: enriching the P-box in stochastic sensitivity analysis. Mechanical Systems and Signal Processing, 129, 265-281. (doi:10.1016/j.ymssp.2019.04.035).

Record type: Article

Abstract

The tendency of uncertainty analysis has promoted the transformation of sensitivity analysis from the deterministic sense to the stochastic sense. This work proposes a stochastic sensitivity analysis framework using the Bhattacharyya distance as a novel uncertainty quantification metric. The Bhattacharyya distance is utilised to provide a quantitative description of the P-box in a two-level procedure for both aleatory and epistemic uncertainties. In the first level, the aleatory uncertainty is quantified by a Monte Carlo process within the probability space of the cumulative distribution function. For each sample of the Monte Carlo simulation, the second level is performed to propagate the epistemic uncertainty by solving an optimisation problem. Subsequently, three sensitivity indices are defined based on the Bhattacharyya distance, making it possible to rank the significance of the parameters according to the reduction and dispersion of the uncertainty space of the system outputs. A tutorial case study is provided in the first part of the example to give a clear understanding of the principle of the approach with reproducible results. The second case study is the NASA Langley challenge problem, which demonstrates the feasibility of the proposed approach, as well as the Bhattacharyya distance metric, in solving such a large-scale, strong-nonlinear, and complex problem.

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More information

Accepted/In Press date: 16 April 2019
e-pub ahead of print date: 24 April 2019
Published date: 24 April 2019
Keywords: Bhattacharyya distance, Probability box, Sensitivity analysis, Uncertainty propagation, Uncertainty quantification

Identifiers

Local EPrints ID: 490444
URI: http://eprints.soton.ac.uk/id/eprint/490444
DOI: doi:10.1016/j.ymssp.2019.04.035
ISSN: 0888-3270
PURE UUID: 0c270039-791a-4bd4-a5e2-c244eb4d27bc
ORCID for Sifeng Bi: ORCID iD orcid.org/0000-0002-8600-8649

Catalogue record

Date deposited: 28 May 2024 16:44
Last modified: 29 May 2024 02:09

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Contributors

Author: Sifeng Bi ORCID iD
Author: Matteo Broggi
Author: Pengfei Wei
Author: Michael Beer

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