Citation: Shiming Wang, Caiyun Li. The Research Status and Evolution Trend of Digital Technology in the International Construction Industry. Journal of Information Technologyin Civil Engineering and Architecture, 2022, 14(3): 16-25. doi: 10.16670/j.cnki.cn11-5823/tu.2022.03.03
2022, 14(3): 16-25. doi: 10.16670/j.cnki.cn11-5823/tu.2022.03.03
The Research Status and Evolution Trend of Digital Technology in the International Construction Industry
School of Business Administration, Liaoning Technical University, Huludao 125105, China |
With the advent of digital economy, digital transformation has become a hot issue in the international construction industry. Using the core database of "Web of Science" as the data source, 181 papers published between 2010 and 2020 were analyzed for their spatial and temporal distribution, knowledge base, research hotspots and development trend, and the development of digital technology in the international construction industry was sorted out. The research results show that: although the international research output on digitization in the construction industry is increasing year by year, there is still more room for progress in the degree of cooperation among authors, research institutions and countries; the current research on digitization technology in the construction industry mainly focuses on BIM technology, and other new digitization technologies are also gradually gaining the attention of scholars; the research hotspots include not only the digitization technology itself, but also the the research hotspots include not only the digital technology itself, but also the specific application stage and application value of digital technology; the research frontiers include digitalization, digital transformation, user adoption, etc. It is predicted that the future research on digital technology in the construction industry will show a cyclic development trend of "development of digital technology-adoption and application of digital technology-challenges in the application process-corresponding solutions". The research results aim to provide reference for the development of digital technology in the domestic construction industry and promote the digital transformation of the construction industry in China gradually.
[1] |
Correani A, De Massis A, Frattini F, Petruzzelli A, Natalicchio A. Implementing a digital strategy: Learning from the experience of three digital transformation projects[J]. California Management Review, 2020, 62: 37-56.doi: 10.1177/0008125620934864 |
[2] |
丰景春, 赵颖萍. 建设工程项目管理BIM应用障碍研究[J]. 科技管理研究, 2017, 37(18): 202-209.doi: 10.3969/j.issn.1000-7695.2017.18.032 |
[3] |
何波, 张慎, 邱文航, 等. 增强现实技术在工程施工中的应用综述[J]. 土木工程与管理学报, 2020, 37(2): 93-98.doi: 10.3969/j.issn.2095-0985.2020.02.015 |
[4] |
张云翼, 林佳瑞, 张建平. BIM与云、大数据、物联网等技术的集成应用现状与未来[J]. 图学学报, 2018, 39(5): 806-816. |
[5] |
季安康, 王海飙. 基于BIM的3D打印技术在建筑行业的应用研究[J]. 科技管理研究, 2016, 36(24): 184-188.doi: 10.3969/j.issn.1000-7695.2016.24.031 |
[6] |
Chen, C. Science Mapping: A Systematic Review of the Literature[J]. Journal of Data and Information Science. 2017, 2(2): 1-40.doi: 10.1515/jdis-2017-0006 |
[7] |
Muhammad Bilal a, Lukumon O. Oyedele a, Junaid Qadir b, et al. Big Data in the construction industry: A review of present status, opportunities, and future trends[J]. Advanced Engineering Informatics, 2016(30): 500-521. |
[8] |
Buchli Jonas, Giftthaler Markus, Kumar Nitish, et al. Digital in situ fabrication-Challenges and opportunities for robotic in situ fabrication in architecture, construction, and beyond[J]. Cement and Concrete Research, 2018(112): 66-75. |
[9] |
Camacho Daniel Delgado, Clayton Patricia, O'Brien William J, et al. Applications of additive manufacturing in the construction industry-A forward-looking review[J]. Automation in Construction, 2018(89): 110-119. |
[10] |
Nawari, N. O. and S. Ravindran. Blockchain and the built environment: Potentials and limitations[J]. Journal of Building Engineering, 2019(25): 16. |
[11] |
Hasan, A. N. and S. M. Rasheed. The Benefits of and Challenges to Implement 5D BIM in Construction Industry[J]. Civil Engineering Journal-Tehran, 2019, 5(2): 412-421.doi: 10.28991/cej-2019-03091255 |
[12] |
Beltagui, A., et al. Exaptation in a digital innovation ecosystem: The disruptive impacts of 3D printing[J]. Research Policy, 2020, 49(1). |
[13] |
Garcia-Alvarado, R., et al. Projections of 3D-printed construction in Chile[J]. Revista Ingenieria De Construccion, 2020, 35(1): 60-72.doi: 10.4067/S0718-50732020000100060 |
[14] |
Xu, Z., et al. Combining IFC and 3D tiles to create 3D visualization for building information modeling[J]. Automation in Construction, 2020, 109. |
[15] |
Ghosh, A, et al. Patterns and trends in Internet of Things(IoT)research: future applications in the construction industry[J]. Engineering Construction and Architectural Management, 2020. |
[16] |
宗淑萍. 基于普赖斯定律和综合指数法的核心著者测评——以《中国科技期刊研究》为例[J]. 中国科技期刊研究, 2016, 27(12): 1310-1314. |
[17] |
罗晓梅, 黄鲁成, 王凯. 基于CiteSpace的战略性新兴产业研究[J]. 统计与决策, 2015(6): 142-145. |
[18] |
Eastman C, Teicholz P, Sacks R, Liston K. BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors[M]. New Jersey: John Wiley&Sons, 2011. |
[19] |
Azhar, S. Building Information Modeling(BIM): Trends, Benefits, Risks, and Challenges for the AEC Industry[J]. Leadership and Management in Engineering, 2011, 11(3): 241-252.doi: 10.1061/(ASCE)LM.1943-5630.0000127 |
[20] |
Barlish K, Sullivan K. How to measure the benefits of BIM-A case study approach[J]. Automation in Construction, 2012, 24: 149-159.doi: 10.1016/j.autcon.2012.02.008 |
[21] |
Bryde D, Broquetas M, Volm J M. The project benefits of Building Information Modelling(BIM)[J]. International Journal of Project Management, 2013, 31(7): 971-980.doi: 10.1016/j.ijproman.2012.12.001 |
[22] |
Volk R, Stengel J, Schultmann F. Building Information Modeling(BIM)for existing buildings-Literature review and future needs[J]. Automation in Construction, 2014, 38: 109-127.doi: 10.1016/j.autcon.2013.10.023 |
[23] |
Miettinen R, Paavola S. Beyond the BIM utopia: Approaches to the development and implementation of building information modeling[J]. Automation in Construction, 2014, 43: 84-91.doi: 10.1016/j.autcon.2014.03.009 |
[24] |
Oesterreich T D, Teuteberg F. Understanding the implications of digitisation and automation in the context of Industry 4.0: A triangulation approach and elements of a research agenda for the construction industry[J]. Computers in Industry, 2016, 83: 121-139.doi: 10.1016/j.compind.2016.09.006 |
[25] |
Bos F, Wolfs R, Ahmed Z, Salet T. Additive manufacturing of concrete in construction: potentials and challenges of 3D concrete printing[J]. Virtual and Physical Prototyping, 2016, 11(3): 209-225.doi: 10.1080/17452759.2016.1209867 |
[26] |
Shubhani Aggarwal, Neeraj Kumar. Blockchain 2.0: smart contracts[J]. Advances in Computers, 2020. |
[27] |
Shemov G, Garcia de Soto B, Alkhzaimi H. Blockchain applied to the construction supply chain: A case study with threat model[J]. Frontiers of Engineering Management, 2020. |
[28] |
Turk Z, Klinc R. Potentials of Blockchain Technology for Construction Management[J]. Procedia Engineering, 2017, 196: 638-645.doi: 10.1016/j.proeng.2017.08.052 |
[29] |
Li J, Greenwood D, Kassem M. Blockchain in the built environment and construction industry: A systematic review, conceptual models and practical use cases[J]. Automation in Construction, 2019, 102, 288-307.doi: 10.1016/j.autcon.2019.02.005 |
[30] |
Jin R, Hancock C M, Tang L, Wanatowski D. BIM Investment, Returns, and Risks in China's AEC Industries[J]. Journal of Construction Engineering and Management, 2017, 143(12): 1-13. |
[31] |
Sepasgozar S, Davis S. Construction Technology Adoption Cube: An Investigation on Process, Factors, Barriers, Drivers and Decision Makers Using NVivo and AHP Analysis[J]. Buildings, 2018, 8(6): 74.doi: 10.3390/buildings8060074 |
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