Determining the stationary digital twins implementation barriers for sustainable construction projects

IF 3.5 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Saeed Reza Mohandes, A. Singh, Abdulwahed Fazeli, S. Banihashemi, M. Arashpour, Clara Cheung, O. Ejohwomu, Tarek Zayed
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引用次数: 0

Abstract

PurposePrevious research has demonstrated that Digital Twins (DT) are extensively employed to improve sustainable construction methods. Nonetheless, their uptake in numerous nations is still constrained. This study seeks to identify and examine the digital twin’s implementation barriers in construction building projects to augment operational performance and sustainability.Design/methodology/approachAn iterative two-stage approach was adopted to explore the phenomena under investigation. General DT Implementation Barriers were first identified from extant literature and subsequently explored using primary questionnaire survey data from Hong Kong building industry professionals.FindingsSurvey results illustrated that Lack of methodologies and tools, Difficulty in ensuring a high level of performance in real-time communication, Impossibility of directly measuring all data relevant to the DT, need to share the DT among multiple application systems involving multiple stakeholders and Uncertainties in the quality and reliability of data are the main barriers for adopting digital twins' technology. Moreover, Ginni’s mean difference measure of dispersion showed that the stationary digital twin’s barriers adoption is needed to share the DT among multiple application systems involving multiple stakeholders.Practical implicationsThe study’s findings offer valuable guidance to the construction industry. They help stakeholders adopt digital twins' technology, which, in turn, improves cost efficiency and sustainability. This adoption reduces project expenses and enhances environmental responsibility, providing companies a competitive edge in the industry.Originality/valueThis research rigorously explores barriers to Digital Twin (DT) implementation in the Hong Kong construction industry, employing a systematic approach that includes a comprehensive literature review, Ranking Analysis (RII) and Ginni’s coefficient of mean difference (GM). With a tailored focus on Hong Kong, the study aims to identify, analyze and provide novel insights into DT implementation challenges. Emphasizing practical relevance, the research bridges the gap between academic understanding and real-world application, offering actionable solutions for industry professionals, policymakers and researchers. This multifaceted contribution enhances the feasibility and success of DT implementation in construction projects within the Architecture, Engineering and Construction (AEC) sector.
确定可持续建筑项目的固定数字双胞胎实施障碍
目的先前的研究表明,数字孪生(DT)被广泛用于改进可持续建筑方法。然而,它们在许多国家的应用仍然受到限制。本研究旨在确定和检查数字孪生在建筑项目中的实施障碍,以提高运营绩效和可持续性。调查结果显示,缺乏方法和工具、难以确保实时通信的高水平性能、无法直接测量与数字孪生相关的所有数据、需要在涉及多个利益相关者的多个应用系统之间共享数字孪生,以及数据质量和可靠性的不确定性,是采用数字孪生技术的主要障碍。此外,Ginni 的均差离散度量表明,采用静态数字孪生障碍需要在涉及多个利益相关者的多个应用系统之间共享 DT。它们有助于利益相关者采用数字孪生技术,进而提高成本效益和可持续性。原创性/价值本研究采用系统的方法,包括全面的文献综述、排名分析(RII)和金尼平均差异系数(GM),严格探讨了香港建筑业实施数字孪生(DT)的障碍。本研究以香港为重点,旨在识别、分析和提供有关 DT 实施挑战的新见解。该研究强调实用性,在学术理解和实际应用之间架起了一座桥梁,为行业专业人士、政策制定者和研究人员提供了可行的解决方案。这一多方面的贡献提高了在建筑、工程和施工(AEC)领域的施工项目中实施数据传输的可行性和成功率。
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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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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