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Data Distillation: Towards Omni-Supervised Learning
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TLDR
Data distillation as mentioned in this paper ensembles predictions from multiple transformations of unlabeled data, using a single model, to automatically generate new training annotations, which can be used for omni-supervised learning.Abstract:
We investigate omni-supervised learning, a special regime of semi-supervised learning in which the learner exploits all available labeled data plus internet-scale sources of unlabeled data. Omni-supervised learning is lower-bounded by performance on existing labeled datasets, offering the potential to surpass state-of-the-art fully supervised methods. To exploit the omni-supervised setting, we propose data distillation, a method that ensembles predictions from multiple transformations of unlabeled data, using a single model, to automatically generate new training annotations. We argue that visual recognition models have recently become accurate enough that it is now possible to apply classic ideas about self-training to challenging real-world data. Our experimental results show that in the cases of human keypoint detection and general object detection, state-of-the-art models trained with data distillation surpass the performance of using labeled data from the COCO dataset alone.read more
Citations
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CheXpert: A large chest radiograph dataset with uncertainty labels and expert comparison
Jeremy Irvin,Pranav Rajpurkar,Michael Ko,Yifan Yu,Silviana Ciurea-Ilcus,Christopher G. Chute,Henrik Marklund,Behzad Haghgoo,Robyn L. Ball,Katie Shpanskaya,Jayne Seekins,David A. Mong,Safwan Halabi,Jesse K. Sandberg,Ricky Jones,David B. Larson,Curtis P. Langlotz,Bhavik N. Patel,Matthew P. Lungren,Andrew Y. Ng +19 more
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