A Match Made in Semantics: Physics-infused Digital Twins for Smart Building Automation

Ganesh Ramanathan, Simon Mayer
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Abstract

Buildings contain electro-mechanical systems that ensure the occupants' comfort, health, and safety. The functioning of these systems is automated through control programs, which are often available as reusable artifacts in a software library. However, matching these reusable control programs to the installed technical systems requires manual effort and adds engineering cost. In this article, we show that such matching can be accomplished fully automatically through logical rules and based on the creation of semantic relationships between descriptions of \emph{physical processes} and descriptions of technical systems and control programs. For this purpose, we propose a high-level bridging ontology that enables the desired rule-based matching and equips digital twins of the technical systems with the required knowledge about the underlying physical processes in a self-contained manner. We evaluated our approach in a real-life building automation project with a total of 34 deployed air handling units. Our data show that rules based on our bridging ontology enabled the system to infer the suitable choice of control programs automatically in more than 90\% of the cases while avoiding almost an hour of manual work for each such match.
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语义学中的天作之合:为智能楼宇自动化注入物理元素的数字双胞胎
建筑物中的机电系统可确保居住者的舒适、健康和安全。这些系统的运行是通过控制程序实现自动化的,而控制程序通常是软件库中可重复使用的工件。然而,将这些可重复使用的控制程序与已安装的技术系统相匹配需要人工操作,并增加了工程成本。在本文中,我们展示了这种匹配可以通过逻辑规则完全自动地完成,并以在(物理过程)描述与技术系统和控制程序描述之间建立语义关系为基础。为此,我们提出了一种高级桥接本体,它可以实现所需的基于规则的匹配,并以自足的方式为技术系统的数字孪生提供所需的底层物理过程知识。我们在一个实际的楼宇自动化项目中评估了我们的方法,该项目共部署了 34 台空气处理单元。我们的数据显示,基于我们的混合本体的规则使系统能够在 90% 以上的情况下自动推断出合适的控制程序选择,同时避免了每次匹配都需要近一小时的人工操作。
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