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MoPro: Webly Supervised Learning with Momentum Prototypes

Junnan Li, Caiming Xiong, Steven C. H. Hoi

2021International Conference on Learning Representations16 citations

Abstract

We propose a webly-supervised representation learning method that does not suffer from the annotation unscalability of supervised learning, nor the computation unscalability of self-supervised learning. Most existing works on webly-supervised representation learning adopt a vanilla supervised learning method without accounting for the prevalent noise in the training data, whereas most prior methods in learning with label noise are less effective for real-world large-scale noisy data. We propose momentum prototypes (MoPro), a simple contrastive learning method that achieves online label noise correction, out-of-distribution sample removal, and representation learning. MoPro achieves state-of-the-art performance on WebVision, a weakly-labeled noisy dataset. MoPro also shows superior performance when the pretrained model is transferred to down-stream image classification and detection tasks. It outperforms the ImageNet supervised pretrained model by +10.5 on 1-shot classification on VOC, and outperforms the best self-supervised pretrained model by +17.3 when finetuned on 1% of ImageNet labeled samples. Furthermore, MoPro is more robust to distribution shifts. Code and pretrained models are available at https://github.com/salesforce/MoPro.

Topics & Concepts

Computer scienceArtificial intelligenceMachine learningNoise (video)Supervised learningPattern recognition (psychology)Semi-supervised learningLabeled dataCode (set theory)Feature learningRepresentation (politics)Artificial neural networkImage (mathematics)Set (abstract data type)PoliticsPolitical scienceLawProgramming languageMachine Learning and Data ClassificationDomain Adaptation and Few-Shot LearningAnomaly Detection Techniques and Applications
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