可解释人工智能的解释策略和自主性对人机协作决策的影响

IF 3.8 2区计算机科学 Q2 ROBOTICS

International Journal of Social Robotics Pub Date : 2024-04-09 DOI:10.1007/s12369-024-01132-2

Bingcheng Wang, Tianyi Yuan, Pei-Luen Patrick Rau

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引用次数: 0

摘要

本研究考察了解释策略（全局解释 vs. 演绎解释 vs. 对比解释）和可解释代理的自主水平（高与低）对人类-人工智能协同决策的影响。实验采用 3 × 2 混合设计。决策任务是一个改良的麻将游戏。48 名参与者被分为三组，每组与一个具有不同解释策略的代理合作。每个代理都有两个自主级别。结果表明，全局解释的心理工作量最小，可理解性最高。对比式解释所需的心理工作量最大，但产生的感知能力、基于情感的信任和社会存在感也最高。演绎法解释的社会存在感最差。与低自主性代理人相比，高自主性代理人的脑力劳动负荷和互动流畅性较低，但产生的信任和社会存在感较高。本研究的结果有助于从业人员设计以用户为中心的可解释决策支持代理，并针对不同情况选择适当的解释策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Effects of Explanation Strategy and Autonomy of Explainable AI on Human–AI Collaborative Decision-making

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Effects of Explanation Strategy and Autonomy of Explainable AI on Human–AI Collaborative Decision-making

This study examined the effects of explanation strategy (global explanation vs. deductive explanation vs. contrastive explanation) and autonomy level (high vs. low) of explainable agents on human–AI collaborative decision-making. A 3 × 2 mixed-design experiment was conducted. The decision-making task was a modified Mahjong game. Forty-eight participants were divided into three groups, each collaborating with an agent with a different explanation strategy. Each agent had two autonomy levels. The results indicated that global explanation incurred the lowest mental workload and highest understandability. Contrastive explanation required the highest mental workload but incurred the highest perceived competence, affect-based trust, and social presence. Deductive explanation was found to be the worst in terms of social presence. The high-autonomy agents incurred lower mental workload and interaction fluency but higher faith and social presence than the low-autonomy agents. The findings of this study can help practitioners in designing user-centered explainable decision-support agents and choosing appropriate explanation strategies for different situations.

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来源期刊

International Journal of Social Robotics ROBOTICS-

CiteScore

9.80

自引率

8.50%

发文量

期刊介绍： Social Robotics is the study of robots that are able to interact and communicate among themselves, with humans, and with the environment, within the social and cultural structure attached to its role. The journal covers a broad spectrum of topics related to the latest technologies, new research results and developments in the area of social robotics on all levels, from developments in core enabling technologies to system integration, aesthetic design, applications and social implications. It provides a platform for like-minded researchers to present their findings and latest developments in social robotics, covering relevant advances in engineering, computing, arts and social sciences. The journal publishes original, peer reviewed articles and contributions on innovative ideas and concepts, new discoveries and improvements, as well as novel applications, by leading researchers and developers regarding the latest fundamental advances in the core technologies that form the backbone of social robotics, distinguished developmental projects in the area, as well as seminal works in aesthetic design, ethics and philosophy, studies on social impact and influence, pertaining to social robotics.