On a hypergraph structuring semantic information for robots navigating and conducting their task in real-world, indoor environments

2022 26th International Conference on Methods and Models in Automation and Robotics (MMAR) Pub Date : 2022-08-22 DOI:10.1109/MMAR55195.2022.9874265

J. Sijs, J. Fletcher

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引用次数: 1

Abstract

Robotic systems operating in the real world would benefit from a clear semantic model to understand their interactions with the real world. Such semantics are typically captured in an ontology. Unfortunately, existing world models in robotics focus on its navigation task. They adopt a hierarchical structure decomposing the environment from large spaces into small objects having a position, thereby limiting the robot's interactions as a “go-to-object” task. To allow a richer understanding of the real world this hierarchical structure should be replaced with an ontology, yet one that does not limit the real-time requirements of the robot when it is queried or updated with new observations extracted from sensors. Such an ontology is presented in this article. For now the ontology also focusses on the navigation aspect of robots, yet it is open to model other aspects of the real world as well. Experiments show that multiple environments are successfully modelled supporting the robot to go from one room to another to search for humans.

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在真实世界的室内环境中，机器人导航和执行任务的超图结构语义信息

在现实世界中运行的机器人系统将受益于一个清晰的语义模型，以理解它们与现实世界的相互作用。这种语义通常在本体中捕获。不幸的是，现有的机器人世界模型主要集中在其导航任务上。它们采用分层结构，将环境从大空间分解为具有位置的小对象，从而将机器人的交互限制为“去对象”任务。为了更丰富地理解现实世界，这种层次结构应该被一个本体所取代，而这个本体在使用从传感器提取的新观察结果进行查询或更新时，不会限制机器人的实时要求。本文提出了这样一个本体。目前，本体还集中在机器人的导航方面，但它也可以对现实世界的其他方面进行建模。实验表明，该方法成功地建立了多个环境模型，支持机器人从一个房间到另一个房间寻找人类。

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

2022 26th International Conference on Methods and Models in Automation and Robotics (MMAR)

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