Andreas Walch, Attila Szabo, Harald Steinlechner, Thomas Ortner, Eduard Groller, Johanna Schmidt
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引用次数: 0
Abstract
Building Information Modeling (BIM) describes a central data pool covering the entire life cycle of a construction project. Similarly, Building Energy Modeling (BEM) describes the process of using a 3D representation of a building as a basis for thermal simulations to assess the building's energy performance. This paper explores the intersection of BIM and BEM, focusing on the challenges and methodologies in converting BIM data into BEM representations for energy performance analysis. BEMTrace integrates 3D data wrangling techniques with visualization methodologies to enhance the accuracy and traceability of the BIM-to-BEM conversion process. Through parsing, error detection, and algorithmic correction of BIM data, our methods generate valid BEM models suitable for energy simulation. Visualization techniques provide transparent insights into the conversion process, aiding error identifcation, validation, and user comprehension. We introduce context-adaptive selections to facilitate user interaction and to show that the BEMTrace workfow helps users understand complex 3D data wrangling processes.
建筑信息模型(BIM)描述了一个涵盖建筑项目整个生命周期的中央数据池。同样,建筑能源建模(BEM)描述了使用建筑物的三维表示作为热模拟基础来评估建筑物能源性能的过程。本文探讨了 BIM 和 BEM 的交叉点,重点是将 BIM 数据转换为 BEM 表征用于能源性能分析的挑战和方法。BEMTrace 集成了三维数据处理技术和可视化方法,以提高 BIM 到 BEM 转换过程的准确性和可追溯性。通过对 BIM 数据进行解析、错误检测和算法修正,我们的方法可生成适用于能源模拟的有效 BEM 模型。可视化技术为转换过程提供了透明的视角,有助于错误识别、验证和用户理解。我们引入了上下文自适应选择,以促进用户互动,并表明 BEMTrace 工作流有助于用户理解复杂的三维数据处理过程。