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| Bayesian Box-Behnken Design× | Bayesian Optimization× | |
|---|---|---|
| Fachgebiet≠ | Versuchsplanung | Optimierung |
| Familie | Process / pipeline | Process / pipeline |
| Entstehungsjahr≠ | 1960 (BBD); Bayesian integration ~1990s–2000s | 1975 (foundational); 2012 (ML standard) |
| Urheber≠ | Box & Behnken (classical BBD, 1960); Bayesian extension developed by multiple authors in response surface literature | Mockus (1975); popularised for ML by Snoek, Larochelle & Adams (2012) |
| Typ≠ | Bayesian response surface experimental design | Sequential model-based black-box optimization |
| Wegweisende Quelle≠ | Box, G. E. P., & Behnken, D. W. (1960). Some new three level designs for the study of quantitative variables. Technometrics, 2(4), 455–475. DOI ↗ | Snoek, J., Larochelle, H., & Adams, R.P. (2012). Practical Bayesian Optimization of Machine Learning Algorithms. Advances in Neural Information Processing Systems (NeurIPS), 25. link ↗ |
| Aliasnamen | Bayesian BBD, Bayesian RSM Box-Behnken, Bayesian three-level design, BBD with Bayesian optimization | Bayesçi Optimizasyon (Hyperparameter Tuning), surrogate-based optimization, sequential model-based optimization, SMBO |
| Verwandt≠ | 5 | 2 |
| Zusammenfassung≠ | Bayesian Box-Behnken Design combines the classical Box-Behnken three-level design structure with Bayesian statistical inference to fit and optimize response surface models. It uses mid-edge and center points to efficiently estimate a second-order polynomial response surface while incorporating prior knowledge about model parameters and propagating uncertainty through to predictions and optimal factor settings. The approach is widely applied in engineering process optimization and formulation studies. | Bayesian Optimization is a sequential, model-based strategy for finding the optimum of expensive black-box functions with as few evaluations as possible. Rooted in the work of Mockus (1975) and brought to mainstream machine-learning practice by Snoek, Larochelle, and Adams (2012), it fits a probabilistic surrogate model — typically a Gaussian Process — to past observations and uses an acquisition function to decide where to probe next, balancing exploration of unknown regions with exploitation of promising ones. |
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