AI Article Synopsis
- Obtaining enough labeled data is a challenge in training complex machine learning models, often addressed by combining weak supervision sources with generative models.
- Coral is a new approach that analyzes code to infer the structure of these generative models, reducing the amount of labeled data needed for training.
- Experimental results show that Coral performs better or similarly to traditional methods, achieving improvements in F1 scores and accuracy when dealing with unlabeled radiology data.
Article Abstract
Obtaining enough labeled data to robustly train complex discriminative models is a major bottleneck in the machine learning pipeline. A popular solution is combining multiple sources of weak supervision using generative models. The structure of these models affects training label quality, but is difficult to learn without any ground truth labels. We instead rely on these weak supervision sources having some structure by virtue of being encoded programmatically. We present Coral, a paradigm that infers generative model structure by statically analyzing the code for these heuristics, thus reducing the data required to learn structure significantly. We prove that Coral's sample complexity scales quasilinearly with the number of heuristics and number of relations found, improving over the standard sample complexity, which is exponential in for identifying degree relations. Experimentally, Coral matches or outperforms traditional structure learning approaches by up to 3.81 F1 points. Using Coral to model dependencies instead of assuming independence results in better performance than a fully supervised model by 3.07 accuracy points when heuristics are used to label radiology data without ground truth labels.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5789796 | PMC |
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