可持续发展和绿色建筑的 BIM 互操作性新框架 - 混凝土结构的应用

IF 3.6 Q1 ENGINEERING, CIVIL Journal of Information Technology in Construction Pub Date : 2024-02-06 DOI:10.36680/j.itcon.2024.003
Marina Muller, Filipe Esmanioto, Natan Huber, Eduardo F. R. Loures, Osisris Canciglieri Junior, Aaron Costin
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引用次数: 0

摘要

建筑业对环境有很大的影响,因此可持续建筑成为社会日益增长的需求。然而,对绿色建筑的关注不仅要考虑施工阶段,还要考虑建筑的整个生命周期,整合从设计到拆除的所有阶段。确保信息在整个生命周期中不丢失数据至关重要。这样,高效的互操作性就能支持可持续性发展,让数据为流程提供支持,促进创造更多可持续性建筑。BIM(建筑信息模型)是 AEC(建筑、工程和施工)行业中支持改进互操作性的一种手段,它通过开放格式共享模型,使参与者之间能够进行交流。本文提出了一个 BIM 互操作性框架,目的是支持知识组织并帮助用户进行决策。它将允许用户在整个绿色 BIM 生命周期中跟踪可持续发展概念,并改进建筑行业的流程,使其更具互操作性,最大限度地减少数据丢失,提高沟通和效率。该框架通过流程映射技术进行展示,在建筑的整个生命周期中使用 BIM 分析和整合可持续发展概念。该框架不仅考虑了数据互操作性,还考虑了流程、业务和服务互操作性等其他方面。此外,还以现浇混凝土结构为例介绍了该框架的应用。研究结果确定了混凝土结构生命周期中可能影响可持续性的关键数据点。
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Novel framework for BIM interoperability for sustainability and green buildings - an application for concrete structures
The construction industry has a great impact on the environment, therefore sustainable construction presents itself as a growing requirement of society. However, the concern with green buildings must not only be considered during the construction stage, but also during the entire life cycle of the building, integrating all stages from the design up until the demolition. Ensuring that the information permeates this lifecycle without data losses is vital. This way, efficient interoperability can support sustainability, allowing data to feed the process, and promoting the creation of more sustainable buildings. BIM (Building Information Modeling) arises as a means to support interoperability improvements in the AEC (Architecture, Engineering, and Construction) industry, by sharing models through open formats and enabling communication amongst actors. This paper presents a framework for BIM interoperability, with the goal to support knowledge organization and aid users in the decision-making processes. It will allow users to track sustainability concepts throughout the entire green BIM lifecycle and to improve processes in the construction industry toward more interoperable processes, minimizing data loss, and improving communication and efficiency. The framework is presented through process mapping techniques to analyze and integrate sustainability concepts using BIM throughout the lifecycle of a building. This framework considers not only data interoperability but also other aspects such as process, business, and service interoperability. Also, an application of the framework is described, using the case of cast-in-place concrete structures. Research findings identified the critical data points in the lifecycle of concrete structures which can influence sustainability.
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来源期刊
CiteScore
6.90
自引率
8.60%
发文量
44
审稿时长
26 weeks
期刊最新文献
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