Tradeoffs in Data Augmentation: An Empirical Study
Raphael Gontijo-Lopes, Sylvia Smullin, Ekin D. Cubuk, Ethan Dyer
2021International Conference on Learning Representations24 citations
Abstract
Though data augmentation has become a standard component of deep neural network training, the underlying mechanism behind the effectiveness of these techniques remains poorly understood. In practice, augmentation policies are often chosen using heuristics of distribution shift or augmentation diversity. Inspired by these, we conduct an empirical study to quantify how data augmentation improves model generalization. We introduce two interpretable and easy-to-compute measures: Affinity and Diversity. We find that augmentation performance is predicted not by either of these alone but by jointly optimizing the two.
Topics & Concepts
GeneralizationComputer scienceHeuristicsArtificial intelligenceDiversity (politics)Artificial neural networkComponent (thermodynamics)Machine learningTraining setEmpirical researchMechanism (biology)Data miningMathematicsStatisticsThermodynamicsEpistemologyPhysicsPhilosophySociologyAnthropologyOperating systemMathematical analysisDomain Adaptation and Few-Shot LearningMachine Learning and AlgorithmsStochastic Gradient Optimization Techniques