基于4D bim的虚拟现实轻钢框架建筑项目施工规划

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
A. Rashidi, Wei Yong, Duncan W. Maxwell, Yihai Fang
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引用次数: 0

摘要

目的建筑业积极尝试解决因建筑规划效率低下而导致的生产力低下问题。必须了解建筑从业者如何根据新兴技术看待建筑规划中的技术集成。本研究旨在通过将4D建筑信息建模(BIM)与虚拟现实(VR)技术相结合,在轻钢框架(LSF)项目的建筑专业人员中进行施工规划,揭示独特的实验结果。设计/方法/方法建筑行业参与者被邀请就两种不同的施工规划方法提供意见:传统方法和创新方法。传统方法涉及参与者使用传统平台,如2D计算机辅助设计(CAD)和基于纸张的施工图的物理可视化,用于LSF装配过程,并使用甘特图工具完成目标项目的施工规划相关任务。相比之下,参与者需要在VR环境中使用更具创新性的平台(如4D-BIM)执行相同的任务。发现使用Charrette测试方法验证了这些发现,强调与传统的纸质方法相比,使用带有VR的4D BIM在可用性(+10.3%)、准确性(+89.1%)和速度(+30%)方面有所提高。这些发现也通过配对t检验得到了验证,这也得到了相同发现合理性的支持。这项研究通过利用现代实践和技术为建筑规划提供了积极的结果。这些发现对全球建筑业来说意义重大,因为建筑规划不善,建筑交付时间表面临低生产率问题、延误和确定性。独创性/价值这种新的技术融合——在工业化建筑项目中结合4D BIM和VR——可能会指导未来的举措,以提高建筑生命周期中的建筑规划效率。基于BIM的交互式虚拟环境将有目的地改变施工规划实践,以提供现代和更确定的建筑施工方法,重点是预制过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Construction planning through 4D BIM-based virtual reality for light steel framing building projects
PurposeThe construction industry has actively attempted to tackle the low-productivity issues arising from inefficient construction planning. It is imperative to understand how construction practitioners perceive technology integration in construction planning in light of emerging technologies. This study intended to uncover unique experimental findings by integrating 4D-building information modelling (BIM) to virtual reality (VR) technology during construction planning among construction professionals at light steel framing (LSF) projects.Design/methodology/approachThe building industry participants were invited to provide inputs on two different construction planning methods: conventional and innovative methods. The conventional method involved the participants using traditional platforms such as 2D computer-aided design (CAD) and physical visualisation of paper-based construction drawings for the LSF assembly process with a Gantt Chart tool to complete construction planning-related tasks for the targeted project. Comparatively, participants are required to perform the same tasks using more innovative platforms like 4D-BIM in a VR environment.FindingsA Charrette Test Method was used to validate the findings, highlighting an improvement in usability (+10.3%), accuracy (+89.1%) and speed (+30%) using 4D BIM with VR compared to the conventional paper-based method. The findings are also validated by a paired t-test, which is supported by the rationality of the same findings. This study posits positive results for construction planning through the utilisation of modern practices and technologies. These findings are significant for the global construction industry facing low productivity issues, delays and certainty in terms of building delivery timelines due to poor construction planning.Originality/valueThis new blend of technologies—combining 4D BIM and VR in industrialised construction projects—potentially directs future initiatives to drive the efficiency of construction planning in the building lifecycle. The interactive BIM-based virtual environment would purposefully transform construction planning practices in order to deliver modern and more certain building construction methods with a focus on prefabrication processes.
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来源期刊
Smart and Sustainable Built Environment
Smart and Sustainable Built Environment GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
9.20
自引率
8.30%
发文量
53
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