机器鸭调试:专心倾听能提高解决问题的能力吗?

Maria Teresa Parreira, Sarah Gillet, Iolanda Leite
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引用次数: 1

摘要

虽然据报道,大声思考对解决问题有积极的影响,但话语可以指向的实体(如社交机器人)的存在的影响仍未得到充分研究。在这项工作中,我们通过分析机器人的倾听行为如何支持大声思考解决问题的过程,研究了机器人在“橡皮鸭调试”设置中的作用。参与者完成了两项不同的任务,同时向机器人或无生命的物体(一只巨大的橡皮鸭)大声说出他们的想法。我们在机器人中实现并测试了两种类型的听众行为:基于规则的启发式和基于深度学习的模型。在一项有101名参与者的受试者间用户研究中,我们评估了机器人的存在如何影响用户在大声思考、任务中的行为和自我报告的用户体验中的参与度。此外,我们还探讨了两种机器人倾听行为对这些指标的影响。与之前的工作相反,我们的结果表明,与无生命物体相比,基于规则的启发式和深度学习机器人条件都没有提高任务的性能或感知。我们讨论了潜在的解释,并阐明了设计社交机器人作为辅助工具来解决问题的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robot Duck Debugging: Can Attentive Listening Improve Problem Solving?
While thinking aloud has been reported to positively affect problem-solving, the effects of the presence of an embodied entity (e.g., a social robot) to whom words can be directed remain mostly unexplored. In this work, we investigated the role of a robot in a “rubber duck debugging” setting, by analyzing how a robot’s listening behaviors could support a thinking-aloud problem-solving session. Participants completed two different tasks while speaking their thoughts aloud to either a robot or an inanimate object (a giant rubber duck). We implemented and tested two types of listener behavior in the robot: a rule-based heuristic and a deep-learning-based model. In a between-subject user study with 101 participants, we evaluated how the presence of a robot affected users’ engagement in thinking aloud, behavior during the task, and self-reported user experience. In addition, we explored the impact of the two robot listening behaviors on those measures. In contrast to prior work, our results indicate that neither the rule-based heuristic nor the deep learning robot conditions improved performance or perception of the task, compared to an inanimate object. We discuss potential explanations and shed light on the feasibility of designing social robots as assistive tools in thinking-aloud problem-solving tasks.
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