Architecture of a cyberphysical avatar

2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS) Pub Date : 2013-04-08 DOI:10.1145/2502524.2502550

Song Han, A. Mok, Jianyong Meng, Yi-Hung Wei, Pei-Chi Huang, Xiuming Zhu, L. Sentis, Kwan-Suk Kim, R. Miikkulainen, J. Menashe

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引用次数: 23

Abstract

This paper introduces the concept of a cyberphysical avatar which is defined to be a semi-autonomous robotic system that adjusts to an unstructured environment and performs physical tasks subject to critical timing constraints while under human supervision. Cyberphysical avatar integrates the recent advance in three technologies: body-compliant control in robotics, neuroevolution in machine learning and QoS guarantees in real-time communication. Body-compliant control is essential for operator safety since cyberphysical avatars perform cooperative tasks in close proximity to humans. Neuroevolution technique is essential for "programming" cyberphysical avatars inasmuch as they are to be used by non-experts for a large array of tasks, some unforeseen, in an unstructured environment. QoS-guaranteed real-time communication is essential to provide predictable, bounded-time response in human-avatar interaction. By integrating these technologies, we have built a prototype cyberphysical avatar testbed.

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网络物理化身的架构

本文介绍了网络物理化身(cyberphysical avatar)的概念，将其定义为一种半自主机器人系统，它可以在人类监督下适应非结构化环境并在关键时间约束下执行物理任务。网络物理化身集成了三种技术的最新进展:机器人的身体兼容控制，机器学习的神经进化和实时通信的QoS保证。身体兼容控制对于操作员的安全至关重要，因为网络物理化身在接近人类的情况下执行合作任务。神经进化技术对于“编程”网络物理化身至关重要，因为它们将被非专家用于在非结构化环境中执行大量任务，其中一些是不可预见的。qos保证的实时通信对于提供可预测的、有限时间的人机交互响应至关重要。通过整合这些技术，我们已经建立了一个原型网络物理化身测试平台。

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

2016 ACM/IEEE 7th International Conference on Cyber-Physical Systems (ICCPS)

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