Approach to robust multi-objective optimization and probabilistic analysis: The ROPAR algorithm

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Abstract

This paper considers the problem of robust optimization, and presents the technique called Robust Optimization and Probabilistic Analysis of Robustness (ROPAR). It has been developed for finding robust optimum solutions of a particular class in model-based multi-objective optimization (MOO) problems (i.e. when the objective function is not known analytically), where some of the parameters or inputs to this model are assumed to be uncertain. A Monte Carlo simulation framework is used. It can be straightforwardly implemented in a distributed computing environment which allows the results to be obtained relatively fast. The technique is exemplified in the two case studies: (a) a benchmark problem commonly used to test MOO algorithms (a version of the ZDT1 function); and (b) a design problem of a simple storm drainage system, where the uncertainty is associated with design rainfall events. It is shown that the design found by ROPAR can adequately cope with these uncertainties. The approach can be useful for assisting in a wide range of risk-based decisions.
Original languageEnglish
Pages (from-to)427-440
Number of pages14
JournalJournal of Hydroinformatics
Volume21
Issue number3
DOIs
Publication statusPublished - 2019

Keywords

  • Multi-objective optimization
  • Robust optimization
  • Uncertainty
  • drainage system

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