嵌入的大型语言模型使机器人能够在不可预测的环境中完成复杂的任务

IF 18.8 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Nature Machine Intelligence Pub Date : 2025-03-19 DOI:10.1038/s42256-025-01005-x

Ruaridh Mon-Williams, Gen Li, Ran Long, Wenqian Du, Christopher G. Lucas

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引用次数: 0

摘要

在不可预测的环境中完成复杂的任务对机器人系统构成挑战，需要机器智能的逐步改变。感觉运动能力被认为是人类智力的组成部分。因此，受生物启发的机器智能可能有效地将人工智能与机器人的感觉运动能力结合起来。在这里，我们报告了一个嵌入的大语言模型机器人（ELLMER）框架，利用GPT-4和检索增强生成基础设施，使机器人能够在不可预测的环境中完成长期任务。该方法从知识库中提取与上下文相关的示例，生成结合力量和视觉反馈的行动计划，并使其能够适应不断变化的条件。我们在一个负责煮咖啡和装饰盘子的机器人上测试了ELLMER；这些任务由从打开抽屉到倒出抽屉的一系列子任务组成，每个子任务都受益于不同的反馈类型和方法。我们展示了ELLMER框架允许机器人完成任务。这次演示标志着可扩展的、高效的、能够在不确定环境中完成复杂任务的“智能机器人”取得了进展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Embodied large language models enable robots to complete complex tasks in unpredictable environments

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Embodied large language models enable robots to complete complex tasks in unpredictable environments

Completing complex tasks in unpredictable settings challenges robotic systems, requiring a step change in machine intelligence. Sensorimotor abilities are considered integral to human intelligence. Thus, biologically inspired machine intelligence might usefully combine artificial intelligence with robotic sensorimotor capabilities. Here we report an embodied large-language-model-enabled robot (ELLMER) framework, utilizing GPT-4 and a retrieval-augmented generation infrastructure, to enable robots to complete long-horizon tasks in unpredictable settings. The method extracts contextually relevant examples from a knowledge base, producing action plans that incorporate force and visual feedback and enabling adaptation to changing conditions. We tested ELLMER on a robot tasked with coffee making and plate decoration; these tasks consist of a sequence of sub-tasks from drawer opening to pouring, each benefiting from distinct feedback types and methods. We show that the ELLMER framework allows the robot to complete the tasks. This demonstration marks progress towards scalable, efficient and ‘intelligent robots’ able to complete complex tasks in uncertain environments.

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来源期刊

Nature Machine Intelligence Multiple-

CiteScore

36.90

自引率

2.10%

发文量

127

期刊介绍： Nature Machine Intelligence is a distinguished publication that presents original research and reviews on various topics in machine learning, robotics, and AI. Our focus extends beyond these fields, exploring their profound impact on other scientific disciplines, as well as societal and industrial aspects. We recognize limitless possibilities wherein machine intelligence can augment human capabilities and knowledge in domains like scientific exploration, healthcare, medical diagnostics, and the creation of safe and sustainable cities, transportation, and agriculture. Simultaneously, we acknowledge the emergence of ethical, social, and legal concerns due to the rapid pace of advancements. To foster interdisciplinary discussions on these far-reaching implications, Nature Machine Intelligence serves as a platform for dialogue facilitated through Comments, News Features, News & Views articles, and Correspondence. Our goal is to encourage a comprehensive examination of these subjects. Similar to all Nature-branded journals, Nature Machine Intelligence operates under the guidance of a team of skilled editors. We adhere to a fair and rigorous peer-review process, ensuring high standards of copy-editing and production, swift publication, and editorial independence.