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I.L. Oostmeijer
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Combining an Asynchronous Multi-Point and a Multi-Fidelity Infill Strategy for Surrogate-Based Optimisation
An Empirical Evaluation on Unconstrained Problems
Master thesis
(2026)
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I.L. Oostmeijer, M.F.M. Hoogreef, Matthijs Langelaar, M. Slebioda, G. la Rocca, O. Nejadseyfi
Engineering design frequently involves optimisation problems incorporating computationally expensive analysis tools. Surrogate-based optimisation has been shown to reduce the runtime of these optimisations. Multi-point (MP) and multi-fidelity (MF) infill strategies can further accelerate convergence, yet their combination has not been studied extensively.
This thesis introduces and evaluates an asynchronous MP MF infill strategy, benchmarked against eleven unconstrained MF numerical problems, using expected runtime (ERT).
The asynchronous MP single-fidelity strategy (16 ranks) reduced the geometric mean ERT by 72.7% compared with the baseline Efficient Global Optimisation with Expected Improvement. The single-point MF strategy, on the other hand, increased the ERT by 21.2%, degrading performance. The combined asynchronous MP MF strategy achieved a 68.2% reduction relative to the baseline.
These results show that the asynchronous MP strategy substantially improves performance. In contrast, the selected MF strategy proves detrimental, indicating that a revised MF strategy is required to yield further gains. ...
This thesis introduces and evaluates an asynchronous MP MF infill strategy, benchmarked against eleven unconstrained MF numerical problems, using expected runtime (ERT).
The asynchronous MP single-fidelity strategy (16 ranks) reduced the geometric mean ERT by 72.7% compared with the baseline Efficient Global Optimisation with Expected Improvement. The single-point MF strategy, on the other hand, increased the ERT by 21.2%, degrading performance. The combined asynchronous MP MF strategy achieved a 68.2% reduction relative to the baseline.
These results show that the asynchronous MP strategy substantially improves performance. In contrast, the selected MF strategy proves detrimental, indicating that a revised MF strategy is required to yield further gains. ...
Engineering design frequently involves optimisation problems incorporating computationally expensive analysis tools. Surrogate-based optimisation has been shown to reduce the runtime of these optimisations. Multi-point (MP) and multi-fidelity (MF) infill strategies can further accelerate convergence, yet their combination has not been studied extensively.
This thesis introduces and evaluates an asynchronous MP MF infill strategy, benchmarked against eleven unconstrained MF numerical problems, using expected runtime (ERT).
The asynchronous MP single-fidelity strategy (16 ranks) reduced the geometric mean ERT by 72.7% compared with the baseline Efficient Global Optimisation with Expected Improvement. The single-point MF strategy, on the other hand, increased the ERT by 21.2%, degrading performance. The combined asynchronous MP MF strategy achieved a 68.2% reduction relative to the baseline.
These results show that the asynchronous MP strategy substantially improves performance. In contrast, the selected MF strategy proves detrimental, indicating that a revised MF strategy is required to yield further gains.
This thesis introduces and evaluates an asynchronous MP MF infill strategy, benchmarked against eleven unconstrained MF numerical problems, using expected runtime (ERT).
The asynchronous MP single-fidelity strategy (16 ranks) reduced the geometric mean ERT by 72.7% compared with the baseline Efficient Global Optimisation with Expected Improvement. The single-point MF strategy, on the other hand, increased the ERT by 21.2%, degrading performance. The combined asynchronous MP MF strategy achieved a 68.2% reduction relative to the baseline.
These results show that the asynchronous MP strategy substantially improves performance. In contrast, the selected MF strategy proves detrimental, indicating that a revised MF strategy is required to yield further gains.
ArctEvac
A sustainable aircraft able to perform a medical evacuation between two remote research stations on the Antarctic continent
Bachelor thesis
(2022)
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E. Konopleva, N.P. van der Ploeg, S.L. Lee, I.L. Oostmeijer, N.I. Grens, J. Baas, P.W.F. Hoogervorst, T.E.E. Tikkala, J.S. Kipping, M.S. Broekers, J.A. Pascoe, I. de Pater, V. Yaghoubi Nasrabadi