Computing Rule-Based Explanations by Leveraging Counterfactuals

Proc. VLDB Endow. Pub Date : 2022-10-31 DOI:10.48550/arXiv.2210.17071

Zixuan Geng, Maximilian Schleich, Dan Suciu

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引用次数: 1

Abstract

Sophisticated machine models are increasingly used for high-stakes decisions in everyday life. There is an urgent need to develop effective explanation techniques for such automated decisions. Rule-Based Explanations have been proposed for high-stake decisions like loan applications, because they increase the users' trust in the decision. However, rule-based explanations are very inefficient to compute, and existing systems sacrifice their quality in order to achieve reasonable performance. We propose a novel approach to compute rule-based explanations, by using a different type of explanation, Counterfactual Explanations, for which several efficient systems have already been developed. We prove a Duality Theorem, showing that rule-based and counterfactual-based explanations are dual to each other, then use this observation to develop an efficient algorithm for computing rule-based explanations, which uses the counterfactual-based explanation as an oracle. We conduct extensive experiments showing that our system computes rule-based explanations of higher quality, and with the same or better performance, than two previous systems, MinSetCover and Anchor.

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利用反事实计算基于规则的解释

复杂的机器模型越来越多地用于日常生活中的高风险决策。目前迫切需要为这种自动决策开发有效的解释技术。基于规则的解释已经被提出用于高风险决策，如贷款申请，因为它们增加了用户对决策的信任。然而，基于规则的解释的计算效率非常低，并且现有系统为了获得合理的性能而牺牲了它们的质量。我们提出了一种新的方法来计算基于规则的解释，通过使用不同类型的解释，反事实解释，为此已经开发了几个有效的系统。我们证明了一个对偶定理，表明基于规则的解释和基于反事实的解释是相互对偶的，然后利用这一观察结果开发了一个有效的算法来计算基于规则的解释，该算法使用基于反事实的解释作为oracle。我们进行了大量的实验，表明我们的系统计算基于规则的解释的质量更高，并且具有与之前的两个系统MinSetCover和Anchor相同或更好的性能。

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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Proc. VLDB Endow.

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