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Metric learning for kernel ridge regression: assessment of molecular similarity

Raimón Fabregat, Puck van Gerwen, Matthieu Haeberle, Friedrich Eisenbrand, Clémence Corminbœuf

2022Machine Learning Science and Technology13 citationsDOIOpen Access PDF

Abstract

Abstract Supervised and unsupervised kernel-based algorithms widely used in the physical sciences depend upon the notion of similarity . Their reliance on pre-defined distance metrics—e.g. the Euclidean or Manhattan distance—are problematic especially when used in combination with high-dimensional feature vectors for which the similarity measure does not well-reflect the differences in the target property. Metric learning is an elegant approach to surmount this shortcoming and find a property-informed transformation of the feature space. We propose a new algorithm for metric learning specifically adapted for kernel ridge regression (KRR): metric learning for kernel ridge regression (MLKRR). It is based on the Metric Learning for Kernel Regression framework using the Nadaraya-Watson estimator, which we show to be inferior to the KRR estimator for typical physics-based machine learning tasks. The MLKRR algorithm allows for superior predictive performance on the benchmark regression task of atomisation energies of QM9 molecules, as well as generating more meaningful low-dimensional projections of the modified feature space.

Topics & Concepts

Artificial intelligenceKernel (algebra)Principal component regressionMetric (unit)Feature (linguistics)Feature vectorEstimatorMathematicsEuclidean distanceSimilarity (geometry)Pattern recognition (psychology)Kernel regressionBenchmark (surveying)Machine learningKernel methodComputer scienceTransformation (genetics)Support vector machineStatisticsPrincipal component analysisImage (mathematics)Discrete mathematicsGeographyPhilosophyChemistryBiochemistryEconomicsGeodesyLinguisticsGeneOperations managementMachine Learning in Materials ScienceComputational Drug Discovery MethodsCrystallography and molecular interactions
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