Citation:
Gang Liu, Zhiliang Ma, Bo Zeng, Xiao Tan, Yinhao Song. A Review of the Application of Digital Twin Technology in Construction Engineering. Journal of Information Technologyin Civil Engineering and Architecture,
2023, 15(6): 1-8.
doi: 10.16670/j.cnki.cn11-5823/tu.2023.06.01
2023, 15(6): 1-8. doi: 10.16670/j.cnki.cn11-5823/tu.2023.06.01
A Review of the Application of Digital Twin Technology in Construction Engineering
| 1. | School of Civil Engineering, Tsinghua University, Beijing 100084, China |
| 2. | Research Institute, Glodon Co., Ltd., Beijing 100193, China |
| 3. | Tongzhou District Commission of Housing and Urban Rural Development of Beijing Municipality, Beijing 101115 China |
In order to promote the application of digital twin technology for improving the construction process of building projects, this paper summarizes the academic research papers of digital twin technology in the field of construction engineering domestically and abroad through literature statistical analysis, bibliometric, literature content analysis, etc. It is found that digital twin technology is involved in the whole life cycle of construction projects: as to the design stage, digital twin technology is widely used in planning, conceptual design, detailed design, documentation design and simulation, etc.; In construction phase, its application is concentrated on construction process supervision, quality and safety control, personnel and machine management, etc.; At the stage of operation and maintenance, digital twins technology focuses on equipment and facility management, maintenance management, operation and maintenance monitoring, energy consumption monitoring, structural safety monitoring and others. However, most of the current works are still in the primary use stage of digital twin such as model display and data visualization. Twin information model, digital twins platform and integration of digital twin technology and construction engineering management model will become hot issues for the following researches.
| [1] |
Grieves, M. . Virtually Intelligent Product Systems: Digital and Physical Twins, in Complex Systems Engineering: Theory and Practice[J]. 2019, American Institute of Aeronautics and Astronautics. p. 175-200. |
| [2] |
王巍, 刘永生, 廖军, 等. 数字孪生关键技术及体系架构[J]. 邮电设计技术, 2021(08): 10-14. |
| [3] |
安世亚太公司, 数字孪生体技术白皮书[R]. 2019. |
| [4] |
ALONSO R, BORRAS M, KOPPELAAR R H E M, et al. SPHERE: BIM digital twin platform[C]//Multidisciplinary Digital Publishing Institute Proceedings. 2019, 20(1): 9. |
| [5] |
SINGH V K, SINGH P, KARMAKAR M, et al. The journal coverage of Web of Science, Scopus and Dimensions: A comparative analysis[J]. Scientometrics, 2021, 126(6): 5113-5142.doi: 10.1007/s11192-021-03948-5 |
| [6] |
涂佳琪, 杨新涯, 王彦力. 中国知网CNKI历史与发展研究[J]. 图书馆论坛, 2019, 39(09): 1-11. |
| [7] |
娄丽娜. 文献计量学在科研机构竞争力评价中的应用研究[J]. 图书情报工作, 2014, 58(S2): 209-211. |
| [8] |
马智亮. 智能建造应用热点及发展趋势[J]. 建筑技术, 2022, 53(09): 1250-1254. |
| [9] |
王海焦, 黄锐娜, 王小俊, 等. 基于VOSviewer的富血小板血浆研究热点主题分析[J]. 中国组织工程研究, 2019, 23(18): 2947-2952. |
| [10] |
OPOKU D G J, PERERA S, OSEI-KYEI R, et al. Digital twin application in the construction industry: A literature review[J]. Journal of Building Engineering, 2021: 102726. |
| [11] |
JIANG F, MA L, BROYD T, et al. Digital twin and its implementations in the civil engineering sector[J]. Automation in Construction, 2021, 130: 103838.doi: 10.1016/j.autcon.2021.103838 |
| [12] |
MARTINELLI. I, CAMPI. F, CHECCACCI. E, LO PRESTI. G. M, PESCATORI. F, PUMO. A, GERMANI. M, Cost estimation method for gas turbine in conceptual design phase, in: G.D. Putnik (Ed. ), 29th CIRP Design Conference, CIRP Design 2019 Vol. 84. |
| [13] |
Lu Q, Chen L, Li S, et al. Semi-automatic geometric digital twinning for existing buildings based on images and CAD drawings[J]. Automation in Construction, 2020, 115: 103183.doi: 10.1016/j.autcon.2020.103183 |
| [14] |
刘占省, 史国梁, 孙佳佳. 数字孪生技术及其在智能建造中的应用[J]. 工业建筑, 2021, 51(03): 184-192. |
| [15] |
Flora M, Froech G, Gaechter W. Optimization of construction management in underground construction using digital infrastructure information models[J]. Bautechnik, 2020, 97(11): 780-788.doi: 10.1002/bate.201900095 |
| [16] |
Lydon G P, Caranovic S, Hischier I, et al. Coupled simulation of thermally active building systems to support a digital twin[J]. Energy and Buildings, 2019, 202: 109298.doi: 10.1016/j.enbuild.2019.07.015 |
| [17] |
Zhang Y, Meina A, Lin X, et al. Digital Twin in Computational Design and Robotic Construction of Wooden Architecture[J]. Advances in Civil Engineering, 2021, 2021. |
| [18] |
Jiang F, Ma L, Broyd T, et al. Digital twin and its implementations in the civil engineering sector[J]. Automation in Construction, 2021, 130: 103838.doi: 10.1016/j.autcon.2021.103838 |
| [19] |
Roh S, Aziz Z, Pena-Mora F. An object-based 3D walkthrough model for interior construction progress monitoring[J]. Automation in Construction, 2011, 20(1): 66-75.doi: 10.1016/j.autcon.2010.07.003 |
| [20] |
刘占省, 刘子圣, 孙佳佳, 等. 基于数字孪生的智能建造方法及模型试验[J]. 建筑结构学报, 2021, 42(06): 26-36. |
| [21] |
GERHARD D, NEGES M, and WOLF M. Transfer of digital twin concepts to the production of precast concrete parts in the construction industry[J]. ZWF Zeitschrift fuer Wirtschaftlichen Fabrikbetrieb 115 (2020) 58–61, |
| [22] |
谢先启, 邓利明, 肖铭钊, 等. 新一代建造质量安全管理发展研究[J]. 中国工程科学, 2021, 23(04): 71-78. |
| [23] |
TRAN H, NGUYEN T N, CHRISTOPHER P, et al. A digital twin approach for geometric quality assessment of as-built prefabricated façades[J]. Journal of Building Engineering, 2021, 41: 102377.doi: 10.1016/j.jobe.2021.102377 |
| [24] |
谢琳琳, 陈雅娇. 基于BIM+ 数字孪生技术的装配式建筑项目调度智能化管理平台研究[J]. 建筑经济, 2020, 41(09): 44-48. |
| [25] |
WANG X, LIANG C J, MENASSA C C, et al. Interactive and Immersive Process-Level Digital Twin for Collaborative Human–Robot Construction Work[J]. Journal of Computing in Civil Engineering, 2021, 35(6): 04021023.doi: 10.1061/(ASCE)CP.1943-5487.0000988 |
| [26] |
LEE D, LEE S H, MASOUD N, et al. Integrated digital twin and blockchain framework to support accountable information sharing in construction projects[J]. Automation in construction, 2021, 127: 103688.doi: 10.1016/j.autcon.2021.103688 |
| [27] |
KHAJAVI S H, MOTLAGH N H, Jaribion A, et al. Digital twin: vision, benefits, boundaries, and creation for buildings[J]. IEEE access, 2019, 7: 147406-147419.doi: 10.1109/ACCESS.2019.2946515 |
| [28] |
LIN Y C, CHEUNG W F. Developing WSN/BIM-based environmental monitoring management system for parking garages in smart cities[J]. Journal of Management in Engineering, 2020, 36(3): 04020012.doi: 10.1061/(ASCE)ME.1943-5479.0000760 |
| [29] |
LU Q, XIE X, PARLIKAD A K, et al. Digital twin-enabled anomaly detection for built asset monitoring in operation and maintenance[J]. Automation in Construction, 2020, 118: 103277.doi: 10.1016/j.autcon.2020.103277 |
| [30] |
XIE X, LU Q, Rodenas-Herraiz D, et al. Visualised inspection system for monitoring environmental anomalies during daily operation and maintenance[J]. Engineering, Construction and Architectural Management, 2020. |
| [31] |
饶小康, 马瑞, 张力, 等. 基于GIS+BIM+IoT数字孪生的堤防工程安全管理平台研究与设计[J]. 中国农村水利水电, 2022 (1) : 1-7. |
| [32] |
SHIM C S, DANG N S, LON S, et al. Development of a bridge maintenance system for prestressed concrete bridges using 3D digital twin model[J]. Structure and Infrastructure Engineering, 2019, 15(10): 1319-1332.doi: 10.1080/15732479.2019.1620789 |
| [33] |
韩冬辰, 张弘, 刘燕, 等. 从BIM到BDT: 关于建筑数字孪生体(BDT) 的构想研究[J]. 建筑学报, 2020(10): 95-101. |
Metrics
- PDF Downloads(109)
- Abstract views(1198)
- HTML views(600)
