Reasoning about location of robot-operated object based on probabilistic ontologies

Cobot Pub Date : 2022-02-16 DOI:10.12688/cobot.17432.1

Yueguang Ge, Shaolin Zhang, Yinghao Cai, Tao Lu, Dayong Wen, Haitao Wang, Zekai Zheng, Shuo Wang

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Abstract

Background: A robot needs to acquire the location of objects when performing daily tasks. Compared to industrial robots, a service robot faces a more complex and unstructured working environment where the location of the target object is usually uncertain. For example, due to diversity in personal habits and seasons, apples may be located in refrigerators, tables, or other places in the living environment. Methods: We propose a novel method for semantic localization of the robot-operated object based on probabilistic ontologies (PR-OWL) and multi-entity Bayesian networks (MEBN). The probabilistic web ontology language is used to describe and model the highly uncertain knowledge about the storage location of objects in the human household environment. Furthermore, the target location is inferred based on the multi-entity Bayesian network. Results: The proposed method is capable to adapting to environmental changes and achieves reliable probability estimation of object location. Experiments on simulated robotic tasks verify the effectiveness of the method. Conclusions: We show that applying PR-OWL combined with MEBN to locate the target object for the robot is feasible， which can improve the cognitive and self-adaptive ability of the robot.

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基于概率本体的机器人操作对象位置推理

背景:机器人在执行日常任务时需要获取物体的位置。与工业机器人相比，服务机器人面临着更加复杂和非结构化的工作环境，目标物体的位置通常是不确定的。例如，由于个人习惯和季节的不同，苹果可能被放置在冰箱、桌子或生活环境的其他地方。方法:提出了一种基于概率本体论和多实体贝叶斯网络的机器人操作对象语义定位方法。利用概率网络本体语言对人类家居环境中物体存储位置的高度不确定性知识进行描述和建模。在此基础上，基于多实体贝叶斯网络进行目标位置推断。结果:该方法能够适应环境变化，实现可靠的目标定位概率估计。仿真机器人任务实验验证了该方法的有效性。结论:应用PR-OWL结合MEBN对机器人目标物体进行定位是可行的，可以提高机器人的认知能力和自适应能力。

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

Cobot collaborative robots-

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期刊介绍： Cobot is a rapid multidisciplinary open access publishing platform for research focused on the interdisciplinary field of collaborative robots. The aim of Cobot is to enhance knowledge and share the results of the latest innovative technologies for the technicians, researchers and experts engaged in collaborative robot research. The platform will welcome submissions in all areas of scientific and technical research related to collaborative robots, and all articles will benefit from open peer review. The scope of Cobot includes, but is not limited to: ● Intelligent robots ● Artificial intelligence ● Human-machine collaboration and integration ● Machine vision ● Intelligent sensing ● Smart materials ● Design, development and testing of collaborative robots ● Software for cobots ● Industrial applications of cobots ● Service applications of cobots ● Medical and health applications of cobots ● Educational applications of cobots As well as research articles and case studies, Cobot accepts a variety of article types including method articles, study protocols, software tools, systematic reviews, data notes, brief reports, and opinion articles.