Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems

Tian J, Tan Y, Zeng J, Sun C, Jin Y (2019)
IEEE Transactions on Evolutionary Computation 23(3): 459-472.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Tian, Jie; Tan, Ying; Zeng, Jianchao; Sun, Chaoli; Jin, YaochuUniBi
Abstract / Bemerkung
Model management plays an essential role in surrogate-assisted evolutionary optimization of expensive problems, since the strategy for selecting individuals for fitness evaluation using the real objective function has substantial influences on the final performance. Among many others, infill criterion driven Gaussian process (GP)-assisted evolutionary algorithms have been demonstrated competitive for optimization of problems with up to 50 decision variables. In this paper, a multiobjective infill criterion (MIC) that considers the approximated fitness and the approximation uncertainty as two objectives is proposed for a GP-assisted social learning particle swarm optimization algorithm. The MIC uses nondominated sorting for model management, thereby avoiding combining the approximated fitness and the approximation uncertainty into a scalar function, which is shown to be particularly important for high-dimensional problems, where the estimated uncertainty becomes less reliable. Empirical studies on 50-D and 100-D benchmark problems and a synthetic problem constructed from four real-world optimization problems demonstrate that the proposed MIC is more effective than existing scalar infill criteria for GP-assisted optimization given a limited computational budget.
Erscheinungsjahr
2019
Zeitschriftentitel
IEEE Transactions on Evolutionary Computation
Band
23
Ausgabe
3
Seite(n)
459-472
ISSN
1089-778X
eISSN
1941-0026
Page URI
https://pub.uni-bielefeld.de/record/2978461

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Tian J, Tan Y, Zeng J, Sun C, Jin Y. Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems. IEEE Transactions on Evolutionary Computation. 2019;23(3):459-472.
Tian, J., Tan, Y., Zeng, J., Sun, C., & Jin, Y. (2019). Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems. IEEE Transactions on Evolutionary Computation, 23(3), 459-472. https://doi.org/10.1109/TEVC.2018.2869247
Tian, Jie, Tan, Ying, Zeng, Jianchao, Sun, Chaoli, and Jin, Yaochu. 2019. “Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems”. IEEE Transactions on Evolutionary Computation 23 (3): 459-472.
Tian, J., Tan, Y., Zeng, J., Sun, C., and Jin, Y. (2019). Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems. IEEE Transactions on Evolutionary Computation 23, 459-472.
Tian, J., et al., 2019. Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems. IEEE Transactions on Evolutionary Computation, 23(3), p 459-472.
J. Tian, et al., “Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems”, IEEE Transactions on Evolutionary Computation, vol. 23, 2019, pp. 459-472.
Tian, J., Tan, Y., Zeng, J., Sun, C., Jin, Y.: Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems. IEEE Transactions on Evolutionary Computation. 23, 459-472 (2019).
Tian, Jie, Tan, Ying, Zeng, Jianchao, Sun, Chaoli, and Jin, Yaochu. “Multiobjective Infill Criterion Driven Gaussian Process-Assisted Particle Swarm Optimization of High-Dimensional Expensive Problems”. IEEE Transactions on Evolutionary Computation 23.3 (2019): 459-472.

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