BIM-GIS Integration for Infrastructure Management in Post-Disaster Stage

Ahmed W. Mushtaha, W. Alaloul, M. A. Musarat, Abdullah O. Baarimah, F. Rabah, A. M. Alawag
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Abstract

The post-disaster phase, which ensues immediately after a catastrophic event, encompasses vital activities related to reconstruction, often varying in duration based on the disaster's magnitude and local conditions. This period presents unique challenges, including data scarcity and the intricate nature of infrastructure utilities. The lack of comprehensive information regarding infrastructure utilities can lead to damages, accidents, fatalities, disruptions, and project delays. Additionally, the post-disaster phase places immense pressure on local governments to swiftly make informed decisions and execute effective responses. To address these challenges, the integration of Building Information Modeling (BIM) and Geographical Information System (GIS) technologies has emerged as a promising solution. This integration has been explored in various studies, ranging from incorporating GIS into project management software applications to devising software architectures for the seamless integration of BIM into GIS, resulting in more efficient infrastructure management. The amalgamation of BIM and GIS is instrumental in post-disaster infrastructure management, offering a plethora of benefits such as improved decision-making, cost reduction, and enhanced collaboration among stakeholders. This paper aims to fulfill several objectives, including identifying contemporary trends in BIM and GIS research, documenting the existing body of knowledge related to their fusion, and providing recommendations for future research endeavors. In this study, a comprehensive literature review was conducted. The analysis delves into the utilization of BIM-GIS integration, its present applications, and potential future prospects in the context of sustainable built environments.
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BIM-GIS 集成促进灾后阶段的基础设施管理
灾后阶段是灾难性事件发生后立即进入的阶段,包括与重建有关的重要活动,其持续时间往往因灾害的严重程度和当地条件而异。这一时期面临着独特的挑战,包括数据匮乏和基础设施公用事业的复杂性。缺乏有关基础设施公用事业的全面信息可能导致损坏、事故、死亡、中断和项目延误。此外,灾后阶段对地方政府迅速做出明智决策和执行有效响应造成了巨大压力。为应对这些挑战,建筑信息模型 (BIM) 与地理信息系统 (GIS) 技术的整合已成为一种前景广阔的解决方案。从将地理信息系统纳入项目管理软件应用,到设计软件架构将建筑信息模型与地理信息系统无缝集成,从而实现更高效的基础设施管理,各种研究都对这种集成进行了探索。BIM 与 GIS 的结合有助于灾后基础设施管理,可带来大量好处,如改善决策、降低成本和加强利益相关者之间的协作。本文旨在实现几个目标,包括确定 BIM 和 GIS 研究的当代趋势,记录与两者融合相关的现有知识体系,并为未来的研究工作提供建议。本研究进行了全面的文献综述。分析深入探讨了在可持续建筑环境背景下,BIM-GIS 集成的利用、当前应用以及潜在的未来前景。
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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