An Expensive Multi-Objective Evolutionary Algorithm with RBF-IDW Surrogate Model

In surrogate-assisted multi-objective evolutionary optimization, surrogate models provide approximations for each solution on each objective, with varying quality. In the proposed algorithm, the RBF-IDW surrogate model replaces the Gaussian process model used in the original algorithm, constructing...

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Bibliographic Details
Published in:2024 International Conference on New Trends in Computational Intelligence (NTCI) pp. 86 - 90
Main Authors: Liu, Yuhao, Fang, Hongyi, Li, Fei
Format: Conference Proceeding
Language:English
Published: IEEE 18.10.2024
Subjects:
Adaptation models
Approximation algorithms
Computational modeling
Gaussian processes
infill criterion
Linear programming
multi-/many objective optimization
Optimization
performance indicator
Prediction algorithms
Predictive models
Surrogate model
Uncertainty
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Summary:In surrogate-assisted multi-objective evolutionary optimization, surrogate models provide approximations for each solution on each objective, with varying quality. In the proposed algorithm, the RBF-IDW surrogate model replaces the Gaussian process model used in the original algorithm, constructing a model for each objective function and identifying candidate solutions during the optimization phase. A Gaussian process model is then used to approximate performance indicators measuring convergence and diversity. Finally, the solution with the maximum expected improvement is selected and evaluated using the expensive objective function. The algorithm's feasibility is demonstrated through tests on the DTLZ and WFG suites.
DOI:10.1109/NTCI64025.2024.10776091