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Practical and Rigorous Uncertainty Bounds for Gaussian Process Regression

Christian Fiedler, Carsten W. Scherer, Sebastian Trimpe

2021Proceedings of the AAAI Conference on Artificial Intelligence44 citationsDOIOpen Access PDF

Abstract

Gaussian Process regression is a popular nonparametric regression method based on Bayesian principles that provides uncertainty estimates for its predictions. However, these estimates are of a Bayesian nature, whereas for some important applications, like learning-based control with safety guarantees, frequentist uncertainty bounds are required. Although such rigorous bounds are available for Gaussian Processes, they are too conservative to be useful in applications. This often leads practitioners to replacing these bounds by heuristics, thus breaking all theoretical guarantees. To address this problem, we introduce new uncertainty bounds that are rigorous, yet practically useful at the same time. In particular, the bounds can be explicitly evaluated and are much less conservative than state of the art results. Furthermore, we show that certain model misspecifications lead to only graceful degradation. We demonstrate these advantages and the usefulness of our results for learning-based control with numerical examples.

Topics & Concepts

Frequentist inferenceGaussian processKrigingHeuristicsBayesian probabilityComputer scienceNonparametric regressionRegressionMathematical optimizationGaussianMathematicsBayesian inferenceRegression analysisMachine learningArtificial intelligenceStatisticsPhysicsQuantum mechanicsGaussian Processes and Bayesian InferenceControl Systems and IdentificationAdvanced Control Systems Optimization