Litcius/Paper detail

PAC-Bayes Meta-Learning With Implicit Task-Specific Posteriors

Cuong Nguyen, Thanh-Toan Do, Gustavo Carneiro

2022IEEE Transactions on Pattern Analysis and Machine Intelligence12 citationsDOI

Abstract

We introduce a new and rigorously-formulated PAC-Bayes meta-learning algorithm that solves few-shot learning. Our proposed method extends the PAC-Bayes framework from a single-task setting to the meta-learning multiple-task setting to upper-bound the error evaluated on any, even unseen, tasks and samples. We also propose a generative-based approach to estimate the posterior of task-specific model parameters more expressively compared to the usual assumption based on a multivariate normal distribution with a diagonal covariance matrix. We show that the models trained with our proposed meta-learning algorithm are well-calibrated and accurate, with state-of-the-art calibration errors while still being competitive on classification results on few-shot classification (mini-ImageNet and tiered-ImageNet) and regression (multi-modal task-distribution regression) benchmarks.

Topics & Concepts

Computer scienceArtificial intelligenceCovarianceCalibrationAlgorithmMultivariate statisticsPattern recognition (psychology)DiagonalPosterior probabilityCovariance matrixMultivariate normal distributionRegressionMathematicsProbability distributionPrior probabilityEstimation theoryData miningUncertainty quantificationBaseline (sea)Distribution (mathematics)Machine learningRegression analysisExpectation–maximization algorithmFeature (linguistics)Data modelingVariance (accounting)Subspace topologyDomain Adaptation and Few-Shot LearningFace recognition and analysisHuman Pose and Action Recognition