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Bayesian Optimisation

Expensive black-box functions are a common problem in many disciplines, including tuning the parameters of machine learning algorithms, robotics, and other engineering design problems. Bayesian Optimisation is a principled and efficient technique for the global optimisation of these functions. The idea behind Bayesian Optimisation is to place a prior distribution over the target function and then update that prior with a set of “true” observations of the target function by expensively evaluating it in order to produce a posterior predictive distribution. The posterior then informs where to make the next observation of the target function through the use of an acquisition function, which balances the exploitation of regions known to have good performance with the exploration of regions where there is little information about the function’s response.

Source: A Bayesian Approach for the Robust Optimisation of Expensive-to-Evaluate Functions

Papers

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Showing 201221 of 221 papers

TitleStatusHype
Hyperparameter Learning via Distributional TransferCode0
The case for fully Bayesian optimisation in small-sample trialsCode0
Investigating Bayesian optimization for expensive-to-evaluate black box functions: Application in fluid dynamicsCode0
On the development of a practical Bayesian optimisation algorithm for expensive experiments and simulations with changing environmental conditionsCode0
A penalisation method for batch multi-objective Bayesian optimisation with application in heat exchanger designCode0
Robust and Conjugate Gaussian Process RegressionCode0
Interactive Text Ranking with Bayesian Optimisation: A Case Study on Community QA and SummarisationCode0
Sample-efficient Bayesian Optimisation Using Known InvariancesCode0
Kernel Functional OptimisationCode0
Theoretical Analysis of Bayesian Optimisation with Unknown Gaussian Process Hyper-ParametersCode0
Spectral Representations for Accurate Causal Uncertainty Quantification with Gaussian ProcessesCode0
Sequential Bayesian Experimental Design for Implicit Models via Mutual InformationCode0
Nonstationary Continuum-Armed Bandit Strategies for Automated Trading in a Simulated Financial MarketCode0
Batch Selection for Parallelisation of Bayesian QuadratureCode0
Parallel Gaussian process surrogate Bayesian inference with noisy likelihood evaluationsCode0
Algorithmic Assurance: An Active Approach to Algorithmic Testing using Bayesian OptimisationCode0
On the Expressiveness of Approximate Inference in Bayesian Neural NetworksCode0
Personalized LLM Response Generation with Parameterized Memory InjectionCode0
Policy learning for many outcomes of interest: Combining optimal policy trees with multi-objective Bayesian optimisationCode0
What do you Mean? The Role of the Mean Function in Bayesian OptimisationCode0
Max-value Entropy Search for Efficient Bayesian OptimizationCode0
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