The Coordinating Role of Language in Real-Time Multimodal Learning of Cooperative Tasks

IEEE Transactions on Autonomous Mental Development Pub Date : 2013-03-01 DOI:10.1109/TAMD.2012.2209880

Maxime Petit, S. Lallée, Jean-David Boucher, G. Pointeau, Pierrick Cheminade, D. Ognibene, E. Chinellato, U. Pattacini, I. Gori, Uriel Martinez-Hernandez, Hector Barron-Gonzalez, Martin Inderbitzin, Andre L. Luvizotto, V. Vouloutsi, Y. Demiris, G. Metta, Peter Ford Dominey

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引用次数: 54

Abstract

One of the defining characteristics of human cognition is our outstanding capacity to cooperate. A central requirement for cooperation is the ability to establish a “shared plan”—which defines the interlaced actions of the two cooperating agents—in real time, and even to negotiate this shared plan during its execution. In the current research we identify the requirements for cooperation, extending our earlier work in this area. These requirements include the ability to negotiate a shared plan using spoken language, to learn new component actions within that plan, based on visual observation and kinesthetic demonstration, and finally to coordinate all of these functions in real time. We present a cognitive system that implements these requirements, and demonstrate the system's ability to allow a Nao humanoid robot to learn a nontrivial cooperative task in real-time. We further provide a concrete demonstration of how the real-time learning capability can be easily deployed on a different platform, in this case the iCub humanoid. The results are considered in the context of how the development of language in the human infant provides a powerful lever in the development of cooperative plans from lower-level sensorimotor capabilities.

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语言在协作任务实时多模态学习中的协调作用

人类认知的一个决定性特征是我们卓越的合作能力。协作的一个核心要求是能够实时地建立一个“共享计划”——它定义了两个协作代理的交错动作，甚至在执行过程中协商这个共享计划。在目前的研究中，我们确定了合作的需求，扩展了我们在这一领域的早期工作。这些要求包括使用口语协商共享计划的能力，在视觉观察和动觉演示的基础上学习该计划中的新组成部分的动作，并最终实时协调所有这些功能。我们提出了一个实现这些要求的认知系统，并展示了该系统允许Nao类人机器人实时学习重要合作任务的能力。我们进一步提供了一个具体的演示，说明如何将实时学习功能轻松地部署在不同的平台上，在本例中是iCub人形。研究结果被认为是在人类婴儿的语言发展如何为从低水平感觉运动能力发展合作计划提供强大杠杆的背景下进行的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Autonomous Mental Development COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-ROBOTICS

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审稿时长

3 months