AutoFrame:一种将建筑体量模型自动转换为结构仿真模型的新方法，以简化早期设计中具体和操作碳评估和日光评估

IF 0.5 0 ARCHITECTURE

Technology Architecture and Design Pub Date : 2021-01-02 DOI:10.1080/24751448.2021.1863674

Katharina Kral

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引用次数: 1

摘要

可持续性和材料效率是建筑的基本考虑因素。然而，它们的评估往往很晚，缺乏架构选择中固有的优化潜力。易于使用的计算工具有助于将性能参数集成到设计决策中，但由于不同的仿真环境需要特定的几何输入，如果没有重要的建模，同时考虑多个约束是不可行的。本研究利用现有的仿真工具，提出了一种新的程序AutoFrame，该程序将建筑体量模型转换为结构仿真输入模型，以简化日光仿真，并在方案设计期间进行具体和操作碳评估。三个参考建筑被用来验证这种方法，一个推测性的案例研究展示了多学科的性能反馈如何指导设计决策，同时保持早期设计探索的灵活性。

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AutoFrame: A Novel Procedure to Auto-Convert Architectural Massing Models into Structural Simulation Models to Streamline Embodied- and Operational-Carbon Assessment and Daylight Evaluation in Early Design

Sustainability and material efficiency are essential considerations in architecture. However, they are often evaluated late, absent optimization potentials inherent in architectural choices. Easy-to-use computational tools facilitate integration of performance parameters into design decision-making, but because different simulation environments require specific geometric input, simultaneous consideration of multiple constraints is not feasible without significant modeling. This research capitalizes on existing simulation tools and presents a novel procedure, AutoFrame, that converts architectural massing models into structural simulation input models to streamline daylight simulation, and embodied- and operational-carbon assessment during schematic design. Three reference buildings are used to validate the approach and a speculative case study demonstrates how the multi-disciplinary performance feedback guides design decisions while maintaining the flexibility of early design exploration.

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来源期刊

Technology Architecture and Design Arts and Humanities-Visual Arts and Performing Arts

CiteScore

1.30

自引率

0.00%

发文量