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干预要点对自动化系统可解释性和用户决策的影响。

Impact of gist intervention on automated system interpretability and user decision making.

机构信息

Department of Engineering Management and Systems Engineering, The George Washington University, 800 22nd St. NW, Washington, DC, 20052, USA.

出版信息

Cogn Res Princ Implic. 2024 Oct 9;9(1):70. doi: 10.1186/s41235-024-00594-2.

DOI:10.1186/s41235-024-00594-2
PMID:39379640
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11461409/
Abstract

As they become more common, automated systems are also becoming increasingly opaque, challenging their users' abilities to explain and interpret their outputs. In this study, we test the predictions of fuzzy-trace theory-a leading theory of how people interpret quantitative information-on user decision making after interacting with an online decision aid. We recruited a sample of 205 online crowdworkers and asked them to use a system that was designed to detect URLs that were part of coordinated misinformation campaigns. We examined how user endorsements of system interpretability covaried with performance on this coordinated misinformation detection task and found that subjects who endorsed system interpretability displayed enhanced discernment. This interpretability was, in turn, associated with both objective mathematical ability and mathematical self-confidence. Beyond these individual differences, we evaluated the impact of a theoretically motivated intervention that was designed to promote sensemaking of system output. Participants provided with a "gist" version of system output, expressing the bottom-line meaning of that output, were better able to identify URLs that might have been part of a coordinated misinformation campaign, compared to users given the same information presented as verbatim quantitative metrics. This work highlights the importance of enabling users to grasp the essential, gist meaning of the information they receive from automated systems, which benefits users regardless of individual differences.

摘要

随着自动化系统变得越来越普遍,它们也变得越来越不透明,这给用户解释和解释其输出的能力带来了挑战。在这项研究中,我们检验了模糊痕迹理论的预测——这是一种关于人们如何解释定量信息的主要理论——在与在线决策辅助工具交互之后,对用户决策的影响。我们招募了 205 名在线众包工人作为样本,并要求他们使用一个旨在检测协调错误信息活动中一部分 URL 的系统。我们考察了用户对系统可解释性的认可与在这项协调错误信息检测任务中的表现之间的相关性,并发现认可系统可解释性的受试者表现出更强的辨别力。这种可解释性反过来又与客观的数学能力和数学自信有关。除了这些个体差异,我们还评估了一种基于理论的干预措施的影响,这种干预措施旨在促进对系统输出的理解。与那些只得到逐字逐句的定量指标的用户相比,提供系统输出“要点”版本的用户,即表达系统输出的底线含义的用户,能够更好地识别可能属于协调错误信息活动的 URL。这项工作强调了让用户理解他们从自动化系统中收到的信息的关键要点的重要性,这无论对于个体差异如何,都对用户有益。

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