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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 2650 of 221 papers

TitleStatusHype
Automated Machine Learning for Positive-Unlabelled LearningCode0
Cheetah: Bridging the Gap Between Machine Learning and Particle Accelerator Physics with High-Speed, Differentiable SimulationsCode2
Long-run Behaviour of Multi-fidelity Bayesian Optimisation0
High-Dimensional Bayesian Optimisation with Large-Scale Constraints -- An Application to Aeroelastic Tailoring0
Beyond Expected Return: Accounting for Policy Reproducibility when Evaluating Reinforcement Learning Algorithms0
Search Strategies for Self-driving Laboratories with Pending Experiments0
Expert-guided Bayesian Optimisation for Human-in-the-loop Experimental Design of Known SystemsCode0
Data-driven Prior Learning for Bayesian OptimisationCode0
Impact of HPO on AutoML Forecasting Ensembles0
Multi-fidelity Bayesian Optimisation of Syngas Fermentation Simulators0
Robust and Conjugate Gaussian Process RegressionCode0
Stochastic Gradient Descent for Gaussian Processes Done RightCode1
Shaping of Magnetic Field Coils in Fusion Reactors using Bayesian Optimisation0
Graph-enabled Reinforcement Learning for Time Series Forecasting with Adaptive Intelligence0
Optimal Observation-Intervention Trade-Off in Optimisation Problems with Causal Structure0
Will More Expressive Graph Neural Networks do Better on Generative Tasks?0
Machine Learning-Assisted Discovery of Flow Reactor Designs0
Adaptive Batch Sizes for Active Learning A Probabilistic Numerics ApproachCode0
Bayesian Optimisation of Functions on Graphs0
Bayesian Optimisation Against Climate Change: Applications and BenchmarksCode0
Learning to Do or Learning While Doing: Reinforcement Learning and Bayesian Optimisation for Online Continuous TuningCode1
End-to-End Meta-Bayesian Optimisation with Transformer Neural ProcessesCode0
Multi-objective optimisation via the R2 utilitiesCode0
NUBO: A Transparent Python Package for Bayesian OptimizationCode1
Applications of Gaussian Processes at Extreme Lengthscales: From Molecules to Black HolesCode1
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