Snorkel MeTaL: Weak Supervision for Multi-Task Learning.

Alex Ratner, Braden Hancock, Jared Dunnmon, Roger Goldman, Christopher Ré
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Abstract

Many real-world machine learning problems are challenging to tackle for two reasons: (i) they involve multiple sub-tasks at different levels of granularity; and (ii) they require large volumes of labeled training data. We propose Snorkel MeTaL, an end-to-end system for multi-task learning that leverages weak supervision provided at multiple levels of granularity by domain expert users. In MeTaL, a user specifies a problem consisting of multiple, hierarchically-related sub-tasks-for example, classifying a document at multiple levels of granularity-and then provides labeling functions for each sub-task as weak supervision. MeTaL learns a re-weighted model of these labeling functions, and uses the combined signal to train a hierarchical multi-task network which is automatically compiled from the structure of the sub-tasks. Using MeTaL on a radiology report triage task and a fine-grained news classification task, we achieve average gains of 11.2 accuracy points over a baseline supervised approach and 9.5 accuracy points over the predictions of the user-provided labeling functions.

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Abstract Image

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Snorkel MeTaL:多任务学习的弱监督。
现实世界中的许多机器学习问题都很难解决,原因有二:(i) 它们涉及不同粒度的多个子任务;(ii) 它们需要大量标注的训练数据。我们提出了 Snorkel MeTaL,这是一个用于多任务学习的端到端系统,可利用领域专家用户提供的多粒度弱监督。在 MeTaL 中,用户指定一个由多个层次相关的子任务组成的问题--例如,对文档进行多级分类--然后为每个子任务提供标签函数作为弱监督。MeTaL 学习这些标注函数的重新加权模型,并利用综合信号训练分层多任务网络,该网络由子任务结构自动编译而成。使用 MeTaL 完成放射报告分流任务和细粒度新闻分类任务后,我们的平均准确率比基准监督方法提高了 11.2 个百分点,比用户提供的标签函数预测准确率提高了 9.5 个百分点。
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