基于人类行为动力学的Pick and Place Agent

Proceedings of the 5th International Conference on Human Agent Interaction Pub Date : 2017-10-17 DOI:10.1145/3125739.3125771

M. Lamb, T. Lorenz, Steven J. Harrison, Rachel W. Kallen, A. Minai, Michael J. Richardson

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引用次数: 6

摘要

人类经常从事需要或通过与其他人协调来提高效率的任务。参与这些任务的协调可以从参与联合行动活动的社会嵌入主体的行为和能力动态来理解。行为动力学提供了人类行为和相互作用的数学(微分方程)模型，而功能动力学识别和建模代理的行为能力随时间演变的方式。综上所述，基于这些方法的人类联合行动模型可以为开发健壮、自然和易于参与的人工代理提供基础。在本文中，我们介绍了人类在拾取和放置任务中的联合动作的行为动力学和供给动力学模型。基于这些模型，我们提供了一个概念验证的人工智能体，并在三维虚拟环境中实现了该智能体与人类合作者的交互。

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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PAPAc: A Pick and Place Agent Based on Human Behavioral Dynamics

Humans often engage in tasks that require or are made more efficient by coordinating with other humans. The coordination involved in these tasks can be understood in terms of the behavioral and affordance dynamics of socially embedded agents engaged in joint action activities. Behavioral dynamics provide mathematical (differential equation) models of human behavior and interaction and affordance dynamics identify and model the ways that an agent's action capabilities evolve over time. Taken together, models of human joint-action based on these approaches may provide a basis for developing robust, natural, and easy to engage artificial agents. In this paper we introduce behavioral and affordance dynamics models of human joint action in a pick-and-place task. Based on these models we provide a proof of concept pick-and-place artificial agent and implement the agent in a 3D virtual environment to interact with human co-actors.

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Proceedings of the 5th International Conference on Human Agent Interaction

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