学习和演绎时间顺序

W. Fan, Resul Tugay, Yaoshu Wang, Min Xie, M. Ali
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引用次数: 0

摘要

本文研究了在没有完整时间戳的情况下,如何确定属于同一实体的一组元组中属性值的时间顺序。我们提出了一个创造者-批评家框架,通过结合深度学习和基于规则的推理来学习和推断时间顺序,称为GATE (Get the lATEst)。GATE的创建者通过深度学习训练排序模型,根据属性之间的相关性学习时间顺序和对属性值进行排序。然后,评论家验证学习到的时间顺序,并通过追踪具有货币约束的数据推断出更多的排名对;它还提供增强的训练数据作为创建者的反馈,以便在下一轮中提高排名。这个过程一直进行,直到获得的时间顺序变得稳定为止。使用现实生活和合成数据集,我们表明GATE能够确定F -measure超过80%的时间顺序,将深度学习提高7.8%,将基于规则的方法提高34.4%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Learning and Deducing Temporal Orders
This paper studies how to determine temporal orders on attribute values in a set of tuples that pertain to the same entity, in the absence of complete timestamps. We propose a creator-critic framework to learn and deduce temporal orders by combining deep learning and rule-based deduction, referred to as GATE (Get the lATEst). The creator of GATE trains a ranking model via deep learning, to learn temporal orders and rank attribute values based on correlations among the attributes. The critic then validates the temporal orders learned and deduces more ranked pairs by chasing the data with currency constraints; it also provides augmented training data as feedback for the creator to improve the ranking in the next round. The process proceeds until the temporal order obtained becomes stable. Using real-life and synthetic datasets, we show that GATE is able to determine temporal orders with F -measure above 80%, improving deep learning by 7.8% and rule-based methods by 34.4%.
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