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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 151175 of 221 papers

TitleStatusHype
Dimensionality Reduction Techniques for Global Bayesian Optimisation0
Efficient acquisition rules for model-based approximate Bayesian computation0
Fast Model-based Policy Search for Universal Policy Networks0
Few-shot crack image classification using clip based on bayesian optimization0
Data-driven Prior Learning for Bayesian OptimisationCode0
Protein Sequence Design with Batch Bayesian OptimisationCode0
Randomised Gaussian Process Upper Confidence Bound for Bayesian OptimisationCode0
Detection and classification of vocal productions in large scale audio recordingsCode0
Bayesian Optimisation with Unknown Hyperparameters: Regret Bounds Logarithmically Closer to OptimalCode0
Asynchronous Batch Bayesian Optimisation with Improved Local PenalisationCode0
Rapidly adapting robot swarms with Swarm Map-based Bayesian OptimisationCode0
Batch Selection for Parallelisation of Bayesian QuadratureCode0
Distributional Bayesian optimisation for variational inference on black-box simulatorsCode0
Bayesian Optimisation over Multiple Continuous and Categorical InputsCode0
Adaptive Batch Sizes for Active Learning A Probabilistic Numerics ApproachCode0
Effective Estimation of Deep Generative Language ModelsCode0
Tuning Hyperparameters without Grad Students: Scalable and Robust Bayesian Optimisation with DragonflyCode0
Efficient Bayesian Experimental Design for Implicit ModelsCode0
End-to-End Meta-Bayesian Optimisation with Transformer Neural ProcessesCode0
Expert-guided Bayesian Optimisation for Human-in-the-loop Experimental Design of Known SystemsCode0
Bayesian Optimisation for Sequential Experimental Design with Applications in Additive ManufacturingCode0
Fast and Reliable Architecture Selection for Convolutional Neural NetworksCode0
Fast Information-theoretic Bayesian OptimisationCode0
Multi-objective optimisation via the R2 utilitiesCode0
Residual Deep Gaussian Processes on ManifoldsCode0
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