TidyBot: personalized robot assistance with large language models

IF 3.7 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Autonomous Robots Pub Date : 2023-11-16 DOI:10.1007/s10514-023-10139-z

Jimmy Wu, Rika Antonova, Adam Kan, Marion Lepert, Andy Zeng, Shuran Song, Jeannette Bohg, Szymon Rusinkiewicz, Thomas Funkhouser

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引用次数: 68

Abstract

For a robot to personalize physical assistance effectively, it must learn user preferences that can be generally reapplied to future scenarios. In this work, we investigate personalization of household cleanup with robots that can tidy up rooms by picking up objects and putting them away. A key challenge is determining the proper place to put each object, as people’s preferences can vary greatly depending on personal taste or cultural background. For instance, one person may prefer storing shirts in the drawer, while another may prefer them on the shelf. We aim to build systems that can learn such preferences from just a handful of examples via prior interactions with a particular person. We show that robots can combine language-based planning and perception with the few-shot summarization capabilities of large language models to infer generalized user preferences that are broadly applicable to future interactions. This approach enables fast adaptation and achieves 91.2% accuracy on unseen objects in our benchmark dataset. We also demonstrate our approach on a real-world mobile manipulator called TidyBot, which successfully puts away 85.0% of objects in real-world test scenarios.

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TidyBot:具有大型语言模型的个性化机器人辅助

为了让机器人有效地个性化物理辅助，它必须了解用户的偏好，这些偏好通常可以在未来的场景中重新应用。在这项工作中，我们研究了家庭清洁的个性化，机器人可以通过捡起物体并把它们放好来清理房间。一个关键的挑战是确定每件物品的合适放置位置，因为人们的偏好可能因个人品味或文化背景而有很大差异。例如，一个人可能喜欢把衬衫放在抽屉里，而另一个人可能喜欢把它们放在架子上。我们的目标是建立一个系统，可以通过与特定的人之前的互动，从少数例子中学习这种偏好。我们表明，机器人可以将基于语言的规划和感知与大型语言模型的少量汇总能力相结合，以推断广泛适用于未来交互的广义用户偏好。该方法实现了快速自适应，并在基准数据集中对未见对象实现了91.2%的准确率。我们还在一个名为TidyBot的真实世界的移动机械手上展示了我们的方法，它在真实世界的测试场景中成功地收起了85.0%的物体。

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来源期刊

Autonomous Robots 工程技术-机器人学

CiteScore

7.90

自引率

5.70%

发文量

审稿时长

3 months

期刊介绍： Autonomous Robots reports on the theory and applications of robotic systems capable of some degree of self-sufficiency. It features papers that include performance data on actual robots in the real world. Coverage includes: control of autonomous robots · real-time vision · autonomous wheeled and tracked vehicles · legged vehicles · computational architectures for autonomous systems · distributed architectures for learning, control and adaptation · studies of autonomous robot systems · sensor fusion · theory of autonomous systems · terrain mapping and recognition · self-calibration and self-repair for robots · self-reproducing intelligent structures · genetic algorithms as models for robot development. The focus is on the ability to move and be self-sufficient, not on whether the system is an imitation of biology. Of course, biological models for robotic systems are of major interest to the journal since living systems are prototypes for autonomous behavior.