SolConPro: Describing multi-functional building products using semantic web technologies

eWork and eBusiness in Architecture, Engineering and Construction Pub Date : 2018-09-03 DOI:10.1201/9780429506215-56

A. Wagner, Laura Kristina Möller, Christian Leifgen, U. Rüppel

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引用次数: 7

Abstract

The research project Solar Construction Processes (SolConPro) focusses on developing new methods to facilitate planners in integrating solar active facade components, e.g. building integrated photovol-taics (BIPV) and building integrated solar thermals (BIST), into the building processes. The decisive feature of such components is that they reunite product properties from multiple product categories and therefore cannot be assigned to a specific category, such as static component or technical building equipment. Well-established product exchange standards within the construction industry such as ICF, simple ifcXML or VDI 3805 are not suitable to cover the wide-ranging properties of multi-functional components. In order to provide a comprehen-sive digital representation of such components and to enable the integration within the methodology of Building Information Modelling, the following paper presents a data schema based on Semantic Web Technologies. The designed multi-layered ontology enables and supports interpretability the wider use of Semantic Web technol-ogies in the construction industry.

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SolConPro:使用语义web技术描述多功能建筑产品

研究项目太阳能建筑过程(SolConPro)侧重于开发新方法，以促进规划者将太阳能主动立面组件整合到建筑过程中，例如建筑集成光伏(BIPV)和建筑集成太阳能热(BIST)。这类组件的决定性特征是它们将多个产品类别的产品属性重新组合在一起，因此不能分配给特定的类别，例如静态组件或技术建筑设备。建筑行业中成熟的产品交换标准，如ICF，简单的ifcXML或VDI 3805，不适合涵盖多功能组件的广泛特性。为了提供这些组件的全面数字表示，并使其能够在建筑信息建模方法中集成，下面的论文提出了一个基于语义Web技术的数据模式。设计的多层本体支持语义Web技术在建筑行业的可解释性。

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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eWork and eBusiness in Architecture, Engineering and Construction

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