2020
DOI: 10.1007/s10472-020-09712-4
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Black-box combinatorial optimization using models with integer-valued minima

Abstract: When a black-box optimization objective can only be evaluated with costly or noisy measurements, most standard optimization algorithms are unsuited to find the optimal solution. Specialized algorithms that deal with exactly this situation make use of surrogate models. These models are usually continuous and smooth, which is beneficial for continuous optimization problems, but not necessarily for combinatorial problems. However, by choosing the basis functions of the surrogate model in a certain way, we show th… Show more

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Cited by 13 publications
(19 citation statements)
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“…On the one hand, these surrogate models lend themselves well to problems with only continuous variables, but not so much when they include integer variables as well. On the other hand, there have been several recent approaches to develop surrogate models for problems with only discrete variables [1,6,11,27].…”
Section: Related Workmentioning
confidence: 99%
See 4 more Smart Citations
“…On the one hand, these surrogate models lend themselves well to problems with only continuous variables, but not so much when they include integer variables as well. On the other hand, there have been several recent approaches to develop surrogate models for problems with only discrete variables [1,6,11,27].…”
Section: Related Workmentioning
confidence: 99%
“…Most of the methods mentioned here suffer from the drawback that the surrogate model grows while the algorithm is running, causing the algorithms to slow down over time. This problem has been addressed and solved for the continuous setting in the DONE algorithm [5] and for the discrete setting in the COMBO [27] and IDONE algorithms [6] by making use of parametric surrogate models that are linear in the parameters. The MiVaBO algorithm [9] is, to the best of our knowledge, the first algorithm that applies this solution to the mixed variable setting.…”
Section: Related Workmentioning
confidence: 99%
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