0000000000122523

AUTHOR

Matthias H. Y. Tan

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ANOVA-MOP: ANOVA Decomposition for Multiobjective Optimization

2018

Real-world optimization problems may involve a number of computationally expensive functions with a large number of input variables. Metamodel-based optimization methods can reduce the computational costs of evaluating expensive functions, but this does not reduce the dimension of the search domain nor mitigate the curse of dimensionality effects. The dimension of the search domain can be reduced by functional anova decomposition involving Sobol' sensitivity indices. This approach allows one to rank decision variables according to their impact on the objective function values. On the basis of the sparsity of effects principle, typically only a small number of decision variables significantl…

Pareto optimality0209 industrial biotechnologyMathematical optimizationOptimization problempäätöksenteko0211 other engineering and technologies02 engineering and technologyMulti-objective optimizationdecision makingTheoretical Computer Science020901 industrial engineering & automationsensitivity analysisDecomposition (computer science)multiple criteria optimizationdimensionality reductionMathematicsta113021103 operations researchpareto-tehokkuusDimensionality reductionta111metamodelingmonitavoiteoptimointiMetamodelingOptimization methodsSoftwareSIAM Journal on Optimization
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