From AutomationML to ROS: A model-driven approach for software engineering of industrial robotics using ontological reasoning

Yingbing Hua, Stefan Zander, Mirko Bordignon, B. Hein
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引用次数: 33

Abstract

One of the major investment for applying industrial robots in production resides in the software development, which is an interdisciplinary and heterogeneous engineering process. This paper presents a novel model-driven approach that uses AutomationML as modeling framework and ontological reasoning as inference framework for constructing robotic application using Robot Operating System (ROS). We show how different robotic components can be classified and modeled with AutomationML, how these components can be composed together to a production system, and how the AutomationML models can be processed semantically by utilizing Semantic Web technologies and ontological reasoning. By applying model-to-text transformation techniques, executable ROS code can be generated from the models that foster fast prototyping and the reuse of robotic software.
从AutomationML到ROS:使用本体推理的工业机器人软件工程的模型驱动方法
将工业机器人应用于生产的主要投资之一是软件开发,这是一个跨学科和异构的工程过程。提出了一种以AutomationML为建模框架,本体推理为推理框架的模型驱动方法,利用机器人操作系统(ROS)构建机器人应用程序。我们展示了如何使用AutomationML对不同的机器人组件进行分类和建模,如何将这些组件组合在一起形成生产系统,以及如何利用语义Web技术和本体推理对AutomationML模型进行语义处理。通过应用模型到文本的转换技术,可执行的ROS代码可以从促进快速原型和机器人软件重用的模型中生成。
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