[1]方宜,卓建成,杜梦飞.数字孪生在轨道交通智能建造业中的应用发展[J].高速铁路技术,2024,15(01):68-73,78.[doi:10.12098/j.issn.1674-8247.2024.01.013]
 FANG Yi,ZHUO Jiancheng,DU Mengfei.Application and Development of Digital Twin in Intelligent Construction of Rail Transit[J].HIGH SPEED RAILWAY TECHNOLOGY,2024,15(01):68-73,78.[doi:10.12098/j.issn.1674-8247.2024.01.013]
点击复制

数字孪生在轨道交通智能建造业中的应用发展()
分享到:

《高速铁路技术》[ISSN:1674-8247/CN:51-1730/U]

卷:
15卷
期数:
2024年01期
页码:
68-73,78
栏目:
出版日期:
2024-03-20

文章信息/Info

Title:
Application and Development of Digital Twin in Intelligent Construction of Rail Transit
文章编号:
1674-8247(2024)01-0068-06
作者:
方宜1卓建成1杜梦飞2
1.中铁二院工程集团有限责任公司,成都 610031;2.北京交通大学, 北京 100044
Author(s):
FANG Yi1ZHUO Jiancheng1DU Mengfei2
1.China Railway Eryuan Engineering Group Co. ,Ltd. ,Chengdu 610031 ,China;2.Beijing Jiaotong University ,Beijing 100044 ,China
关键词:
数字孪生轨道交通智能化智能建造数字化协同
Keywords:
digital twinrail transitintelligenceintelligent constructiondigital collaboration
分类号:
U213.2
DOI:
10.12098/j.issn.1674-8247.2024.01.013
文献标志码:
A
摘要:
数字孪生作为智能轨道建设的关键技术之一,逐渐成为业内研究热点。根据轨道交通智能建造业应用情况,本文从规划设计、加工生产、施工管理和运营维护4个维度,对数字孪生的阶段性成果进行梳理阐述。针对既有研究不足,提出数字孪生技术未来研究方向和重点指向建议。研究结果表明:数字孪生技术能够提高工程质量、降低成本、提高效率,并能提供实时决策支持和全生命周期数据实时共享。数字孪生技术在轨道交通智能建造业中具有广阔的应用前景,将对行业的发展和进步产生积极的推动作用。
Abstract:
As one of the important technologies for intelligent construction of rail transit,digital twin has gradually become a research hotspot in the industry. According to the practice of applying intelligent construction of rail transit,this paper reviewed the phased achievements of digital twin from four dimensions:planning and design,machining and fabrication,construction management,and operation and maintenance. Aiming at the gaps in existing research,this paper suggested future research directions and focal points for digital twin technology. The findings reveal that the digital twin technology can improve project quality,reduce costs and increase efficiency,and it offers real-time supports for making decisions and enables real-time data sharing in the entire lifecycle. It has a broad application prospect in the intelligent construction of rail transit,and will play a positive role in promoting the development of the industry.

参考文献/References:

[1] 尤志嘉,郑莲琼,冯凌俊. 智能建造系统基础理论与体系结构[J]. 土木工程与管理学报,2021,38(2):105-111,118. YOU Zhijia,ZHENG Lianqiong,FENG Lingjun. Basic Theory and Architecture of Intelligent Construction System[J]. Journal of Civil Engineering and Management,2021,38(2):105-111,118.
[2] 陶飞,刘蔚然,张萌,等. 数字孪生五维模型及十大领域应用[J].计算机集成制造系统,2019,25(1):1-18. TAO Fei,LIU Weiran,ZHANG Meng,et al. Five-dimension Digital
[3] GLAESSGEN E,STARGEL D. The Digital Twin Paradigm for Future NASA and U. S. Air Force Vehicles[C]//Proceedings of the 53rd AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics and Materials Conference<BR>20 th AIAA/ASME/AHS Adaptive Structures Conference<BR>14 th AIAA. Honolulu,Hawaii. Reston,Virigina:AIAA,2012 :AIAA2012-1818.
[4] GABOR T,BELZNER L,KIERMEIER M,et al. A Simulation-based Architecture for Smart Cyber-physical Systems[C]//2016 IEEE International Conference on Autonomic Computing (ICAC). Wuerzburg,Germany. IEEE,2016 :374-379.
[5] TUEGEL E J,INGRAFFEA A R,EASON T G,et al. Reengineering Aircraft Structural Life Prediction Using a Digital Twin[J]. International Journal of Aerospace Engineering,2011 :154798.
[6] LIM K Y H,ZHENG Pai,CHEN C H. A State-of-the-art Survey of Digital Twin:Techniques,Engineering Product Lifecycle Management and Business Innovation Perspectives[J]. Journal of Intelligent Manufacturing,2020,31(6):1313-1337.
[7] ZHENG Yu,YANG Sen,CHENG Huanchong. An Application Framework of Digital Twin and Its Case Study[J]. Journal of Ambient Intelligence and Humanized Computing,2019,10(3):1141-1153.
[8] JIANG Hongfei,QU Ting,WAN Ming,et al. Digital-twin-based Implementation Framework of Production Service System for Highly Dynamic Production Logistics Operation[J]. IET Collaborative Intelligent Manufacturing,2020,2(2):74-80.
[9] MINERVA R,LEE G M,CRESPI N. Digital Twin in the IoT Context:a Survey on Technical Features,Scenarios,and Architectural Models [J]. Proceedings of the IEEE,2020,108(10):1785-1824.
[10]BARRICELLI B R,CASIRAGHI E,FOGLI D. A Survey on Digital Twin:Definitions,Characteristics,Applications,and Design Implications[J]. IEEE Access,2019,7 :167653-167671.
[11]CHEREPOV O, ANTROPOV A, KARMATSKIY V, et al. Methodology for Estimating the Resource of the Friction Vibration Damper of a Freight Car Trolley[J]. Journal of Physics:Conference Series,2021,2094(5):052064.
[12]VAN DINTER R, TEKINERDOGAN B, CATAL C. Predictive Maintenance Using Digital Twins:a Systematic Literature Review [J]. Information and Software Technology,2022,151 :107008.
[13]BERNAL E,WU Qing,SPIRYAGIN M,et al. Augmented Digital Twin for Railway Systems[J]. Vehicle System Dynamics,2024, 62(1):67-83.

相似文献/References:

[1]谭彬,刘永欣.粤港澳大湾区轨道交通互联互通标准判识研究[J].高速铁路技术,2024,15(03):1.[doi:10.12098/j.issn.1674-8247.2024.03.001]
 TAN Bin,LIU Yongxin.Study on the Standard Identification for Interconnectivity of Rail Transit in the Guangdong-Hong Kong-Macao Greater Bay Area[J].HIGH SPEED RAILWAY TECHNOLOGY,2024,15(01):1.[doi:10.12098/j.issn.1674-8247.2024.03.001]

备注/Memo

备注/Memo:
收稿日期:2023-12-05
作者简介:方宜(1984-),女,高级工程师。
更新日期/Last Update: 2024-03-20