协作机器人快速形成的知识网络和分布式态势感知

Patrick Doherty, Cyrille Berger, Piotr Rudol, Mariusz Wzorek
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引用次数: 0

摘要

在协作机器人技术中,分布式态势感知对于支持机器人和人类代理团队的集体智能至关重要,它既可用于个人决策支持,也可用于集体决策支持。这在与紧急救援和危机管理有关的应用中尤为重要。在执行任务期间,异构机器人和人类会以不同方式逐步收集数据和知识。我们将此称为 "快速形成的知识网络"(HFKNs)。本文的重点是对支持机器人和人类团队创建 HFKN 的通用分布式系统架构进行规范和原型开发。收集的信息范围从低级传感器数据到高级语义知识,后者部分以 RDF 图表示。该框架包括一个同步协议和相关算法,可在代理之间自动分发和共享数据与知识。这是通过代理之间共享的 RDF 图的分布式同步来实现的。机器人和人类都可以使用 SPARQL 中指定的高级语义查询,从团队成员那里获取知识和数据内容。该系统经过了经验验证,并提供了所提算法的复杂性结果。此外,还介绍了一个现场机器人案例研究,其中在一个协作紧急救援场景中使用多个无人机执行了 3D 绘图任务,同时使用了完整的 HFKN 框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hastily formed knowledge networks and distributed situation awareness for collaborative robotics

In the context of collaborative robotics, distributed situation awareness is essential for supporting collective intelligence in teams of robots and human agents where it can be used for both individual and collective decision support. This is particularly important in applications pertaining to emergency rescue and crisis management. During operational missions, data and knowledge are gathered incrementally and in different ways by heterogeneous robots and humans. We describe this as the creation of Hastily Formed Knowledge Networks (HFKNs). The focus of this paper is the specification and prototyping of a general distributed system architecture that supports the creation of HFKNs by teams of robots and humans. The information collected ranges from low-level sensor data to high-level semantic knowledge, the latter represented in part as RDF Graphs. The framework includes a synchronization protocol and associated algorithms that allow for the automatic distribution and sharing of data and knowledge between agents. This is done through the distributed synchronization of RDF Graphs shared between agents. High-level semantic queries specified in SPARQL can be used by robots and humans alike to acquire both knowledge and data content from team members. The system is empirically validated and complexity results of the proposed algorithms are provided. Additionally, a field robotics case study is described, where a 3D mapping mission has been executed using several UAVs in a collaborative emergency rescue scenario while using the full HFKN Framework.

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