Active Learning Stopping Strategies for Technology-Assisted Sensitivity Review

G. Mcdonald, C. Macdonald, I. Ounis
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引用次数: 5

Abstract

Active learning strategies are often deployed in technology-assisted review tasks, such as e-discovery and sensitivity review, to learn a classifier that can assist the reviewers with their task. In particular, an active learning strategy selects the documents that are expected to be the most useful for learning an effective classifier, so that these documents can be reviewed before the less useful ones. However, when reviewing for sensitivity, the order in which the documents are reviewed can impact on the reviewers' ability to perform the review. Therefore, when deploying active learning in technology-assisted sensitivity review, we want to know when a sufficiently effective classifier has been learned, such that the active learning can stop and the reviewing order of the documents can be selected by the reviewer instead of the classifier. In this work, we propose two active learning stopping strategies for technology-assisted sensitivity review. We evaluate the effectiveness of our proposed approaches in comparison with three state-of-the-art stopping strategies from the literature. We show that our best performing approach results in a significantly more effective sensitivity classifier (+6.6% F2) than the best performing stopping strategy from the literature (McNemar's test, p<0.05).
技术辅助敏感性评价的主动学习停止策略
主动学习策略通常部署在技术辅助的审查任务中,例如电子发现和敏感性审查,以学习可以帮助审查者完成任务的分类器。特别是,主动学习策略选择对学习有效分类器最有用的文档,以便可以在不太有用的文档之前查看这些文档。然而,在进行敏感性评审时,评审文档的顺序可能会影响评审人员执行评审的能力。因此,在技术辅助敏感性审查中部署主动学习时,我们想知道什么时候已经学习到一个足够有效的分类器,以便主动学习可以停止,并且可以由审稿人而不是分类器来选择文档的审查顺序。在这项工作中,我们提出了两种主动学习停止策略,用于技术辅助敏感性审查。我们评估了我们提出的方法的有效性,并与文献中三种最先进的停止策略进行了比较。我们表明,我们表现最好的方法产生的灵敏度分类器(+6.6% F2)明显高于文献中表现最好的停止策略(McNemar检验,p<0.05)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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