A CAD-BEM geometry transformation method for face-based primary geometric input based on closed contour recognition

IF 6.1 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Jun Xiao, Hao Zhou, Shiji Yang, Deyin Zhang, Borong Lin
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引用次数: 0

Abstract

Performance analysis during the early design stage can significantly reduce building energy consumption. However, it is difficult to transform computer-aided design (CAD) models into building energy models (BEM) to optimize building performance. The model structures for CAD and BEM are divergent. In this study, geometry transformation methods was implemented in BES tools for the early design stage, including auto space generation (ASG) method based on closed contour recognition (CCR) and space boundary topology calculation method. The program is developed based on modeling tools SketchUp to support the CAD format (like *.stl, *.dwg, *.ifc, etc.). It transforms face-based geometric information into a zone-based tree structure model that meets the geometric requirements of a single-zone BES combined with the other thermal parameter inputs of the elements. In addition, this study provided a space topology calculation method based on a single-zone BEM output. The program was developed based on the SketchUp modeling tool to support additional CAD formats (such as *.stl, *.dwg, *.ifc), which can then be imported and transformed into *.obj. Compared to current methods mostly focused on BIM-BEM transformation, this method can ensure more modeling flexibility. The method was integrated into a performance analysis tool termed MOOSAS and compared with the current version of the transformation program. They were tested on a dataset comprising 36 conceptual models without partitions and six real cases with detailed partitions. It ensures a transformation rate of two times in any bad model condition and costs only 1/5 of the time required to calculate each room compared to the previous version.

基于闭合轮廓识别的人脸初级几何输入的 CAD-BEM 几何变换方法
在早期设计阶段进行性能分析可以大大降低建筑能耗。然而,要将计算机辅助设计(CAD)模型转化为建筑能耗模型(BEM)以优化建筑性能却很困难。CAD 和 BEM 的模型结构各不相同。在这项研究中,在早期设计阶段的 BES 工具中采用了几何转换方法,包括基于封闭轮廓识别(CCR)的自动空间生成(ASG)方法和空间边界拓扑计算方法。该程序基于建模工具 SketchUp 开发,支持 CAD 格式(如 *.stl、*.dwg、*.ifc 等)。它将基于面的几何信息转化为基于区域的树形结构模型,该模型可满足单区域 BES 的几何要求,并与元素的其他热参数输入相结合。此外,本研究还提供了一种基于单区 BEM 输出的空间拓扑计算方法。该程序基于 SketchUp 建模工具开发,支持其他 CAD 格式(如 *.stl、*.dwg、*.ifc),然后可将其导入并转换为 *.obj。与目前主要侧重于 BIM-BEM 转换的方法相比,这种方法可以确保建模的灵活性。该方法被集成到名为 MOOSAS 的性能分析工具中,并与当前版本的转换程序进行了比较。它们在一个数据集上进行了测试,该数据集包括 36 个不带分区的概念模型和 6 个带详细分区的实际案例。在任何恶劣的模型条件下,它都能确保两倍的转换率,而且与之前的版本相比,计算每个房间所需的时间仅为原来的 1/5。
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
Building Simulation
Building Simulation THERMODYNAMICS-CONSTRUCTION & BUILDING TECHNOLOGY
CiteScore
10.20
自引率
16.40%
发文量
0
审稿时长
>12 weeks
期刊介绍: Building Simulation: An International Journal publishes original, high quality, peer-reviewed research papers and review articles dealing with modeling and simulation of buildings including their systems. The goal is to promote the field of building science and technology to such a level that modeling will eventually be used in every aspect of building construction as a routine instead of an exception. Of particular interest are papers that reflect recent developments and applications of modeling tools and their impact on advances of building science and technology.
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