Please wait a minute...
 首页  期刊列表 期刊订阅 开放获取 关于我们
English
在线预览  |  当期目录  |  过刊浏览  |  热点文章  |  下载排行
Frontiers of Engineering Management    2019, Vol. 6 Issue (4) : 503-516     https://doi.org/10.1007/s42524-019-0073-9
RESEARCH ARTICLE
Intelligent construction technology of railway engineering in China
Chunfang LU1, Junfei LIU2, Yanhong LIU2, Yuming LIU3()
1. China Railway Society, Beijing 100844, China
2. Engineering Management Center, China Railway Corporation, Beijing 100844, China
3. School of Economics and Management, Beijing Jiaotong University, Beijing 100044, China
全文: PDF(3935 KB)   HTML
导出: BibTeX | EndNote | Reference Manager | ProCite | RefWorks
Abstract

Intelligent construction technology has been widely used in the field of railway engineering. This work first analyzes the connotation, function, and characteristics of intelligent construction of railway engineering (ICRE) and establishes its system structure from three dimensions, namely, life cycle, layers of management, and intelligent function, to deeply understand the development situation of intelligent railway construction in China. Second, seven key technical support systems of ICRE, which include building information modeling (BIM) standard system for China’s railway sector, technology management platform and life cycle management based on BIM+GIS (geography information system), ubiquitous intelligent perception system, intelligent Internet-of-Things (IoT) commu-nication system based on mobile interconnection, construction management platform based on cloud computing and big data, unmanned operation system based on artificial intelligence, intelligent machinery and robot, and intelligent operation and maintenance system based on BIM and PHM (prediction and health management), are established. Third, ICRE is divided into three development stages: primary (perception), intermediate (substitution), and advanced (intelligence). The evaluation index system of each stage is provided from the aspects of technology and function. Finally, this work summarizes and analyzes the application situation of ICRE in the entire railway sector of China, represented by Beijing–Zhangjiakou and Beijing–Xiong’an high-speed railways. Result shows that the technical support systems of the ICRE have emerged in China and are still in the process of deepening basic technology research and preliminary application. In the future, the ICRE of China’s railway sector will develop toward a higher stage.

Keywords China railway sector      intelligent construction      railway engineering      informatization      development stage     
最新录用日期:    在线预览日期:    发布日期: 2019-12-05
服务
推荐给朋友
免费邮件订阅
RSS订阅
作者相关文章
Chunfang LU
Junfei LIU
Yanhong LIU
Yuming LIU
引用本文:   
Chunfang LU,Junfei LIU,Yanhong LIU, et al. Intelligent construction technology of railway engineering in China[J]. Front. Eng, 2019, 6(4): 503-516.
网址:  
https://journal.hep.com.cn/fem/EN/10.1007/s42524-019-0073-9     OR     https://journal.hep.com.cn/fem/EN/Y2019/V6/I4/503
Fig.1  The basic framework of standardized management system for railway construction project.
Fig.2  The intelligent technology system.
Fig.3  The basic framework of intelligent railway information system.
Fig.4  The system structure of the ICRE.
Fig.5  Seven-supporting technological systems for the ICRE.
Fig.6  Ubiquitous intelligent perception system.
Fig.7  The railway engineering construction management platform.
Fig.8  Three-stage development of the ICRE.
Fig.9  Three-dimension collaborative design based on the same database.
Fig.10  Optimum design with BIM in a cable-stayed bridge.
Fig.11  Construction site planning.
Fig.12  Three-dimension visualization technical disclosure.
Fig.13  Three-dimension digital pre-assembly.
Fig.14  Digital construction based on BIM.
1 Z Aziz, C J Anumba, D Ruikar, P Carrillo, D Bouchlaghem (2006). Intelligent wireless web services for construction—A review of the enabling technologies. Automation in Construction, 15(2): 113–123
https://doi.org/10.1016/j.autcon.2005.03.002
2 M N Birje, P S Challagidad, R H Goudar, M T Tapale (2017). Cloud computing review: Concepts, technology, challenges and security. International Journal of Cloud Computing, 6(1): 32–57
https://doi.org/10.1504/IJCC.2017.083905
3 F Craveiro, J P Duarte, H Bartolo, P J Bartolo (2019). Additive manufacturing as an enabling technology for digital construction: A perspective on construction 4.0. Automation in Construction, 103: 251–267
https://doi.org/10.1016/j.autcon.2019.03.011
4 Q X Fan, Z L Yang, Z L Wang, W He, K Wu (2019). Digital dynamic control over whole construction process of large hydropower projects. Journal of Hydroelectric Engineering, 38(1): 1–11 (in Chinese)
5 S H Ghaffar, J Corker, M Fan (2018). Additive manufacturing technology and its implementation in construction as an eco-innovative solution. Automation in Construction, 93: 1–11
https://doi.org/10.1016/j.autcon.2018.05.005
6 X H Han, F Yuan, L M Hou, W Liu (2018). Analysis on the BIM application in the whole life cycle of railway engineering. In: ICRT 2017: Railway Development, Operations, and Maintenance. Reston, VA: American Society of Civil Engineers, 331–338
7 Z Z Hu, J P Zhang (2011). BIM- and 4D-based integrated solution of analysis and management for conflicts and structural safety problems during construction: 2. Development and site trials. Automation in Construction, 20(2): 167–180
https://doi.org/10.1016/j.autcon.2010.09.014
8 B Kehoe, S Patil, P Abbeel, K Goldberg (2015). A survey of research on cloud robotics and automation. IEEE Transactions on Automation Science and Engineering, 12(2): 398–409
https://doi.org/10.1109/TASE.2014.2376492
9 M A Khan, K Salah (2018). IoT security: Review, blockchain solutions, and open challenges. Future Generation Computer Systems, 82(5): 395–411
https://doi.org/10.1016/j.future.2017.11.022
10 K Q Li (2019). 2019 Government work report. In: The 13th National People’s Congress. The State Council of People’s Republic of China (in Chinese)
11 Y J Li (2018). The application of intelligent building technology in railway construction management. China Railway, (5): 1–7 (in Chinese)
12 M Lin, Q Wang, M J Wang, J G Li (2018). Exploration and practice of intelligent construction in island tunnel project of Hong Kong–Zhuhai–Macao Bridge. Science & Technology Progress and Policy, 35(24): 81–85 (in Chinese)
13 J P Liu, J S Zhang, H Wang, X L Sun, L L Zhu (2018). Research on 3D GIS platform construction of expressway based on 3D data model. In: 2018 International Conference on Smart Grid and Electrical Automation (ICSGEA). Changsha: IEEE, 341–345
14 X Liu, X F Wang, X Feng (2013). Study and application of the IoT technology in railway. In: Advanced Materials Research. Trans Tech Publications, 694: 3329–3332
https://doi.org/10.4028/www.scientific.net/AMR.694-697.3329
15 C F Lu (2016). Study and practice on integrated management model for high-speed railway construction projects in China. Journal of the China Railway Society, 38(11): 1–8 (in Chinese)
16 C F Lu, J Zhang (2018). Technological innovation and engineering construction management of high-speed railway. China Occupational Safety and Health, 13(4): 8–10 (in Chinese)
17 Y X Lu (2010a). Towards green and intelligent manufacturing (I)—The way of manufacturing development in China. Journal of Electrical Engineering, (4): 14–18 (in Chinese)
18 Y X Lu (2010b). Towards green and intelligent manufacturing (II)—The way of manufacturing development in China. Journal of Electrical Engineering, (5): 22–24 (in Chinese)
19 Y X Lu (2010c). Towards green and intelligent manufacturing (III)—The way of manufacturing development in China. Journal of Electrical Engineering, (6): 14–19 (in Chinese)
20 Z B Mao (2017). Promoting the construction of intelligent sites to advance sustainable and healthy development of construction industry. Journal of Engineering Management, 31(5): 80–84 (in Chinese)
21 H Wang, Y S Pan, X C Luo (2019). Integration of BIM and GIS in sustainable built environment: A review and bibliometric analysis. Automation in Construction, 103(3): 41–52
https://doi.org/10.1016/j.autcon.2019.03.005
22 L J Wang, X Huang, R Y Zheng (2012). The application of BIM in intelligent construction. Applied Mechanics and Materials, 188(6): 236–241
https://doi.org/10.4028/www.scientific.net/AMM.188.236
23 T J Wang (2015). Construction and prospect of railway engineering management platform based on BIM. Railway Technical Innovation, (3): 8–13 (in Chinese)
24 T J Wang (2019a). Innovation and practice of railway engineering construction on management based on BIM technology. Journal of the China Railway Society, 41(1): 1–9 (in Chinese)
25 T J Wang (2019b). Study on the development strategy of China intelligent high speed railway. China Railway, (1): 9–14 (in Chinese)
26 R Woodhead, P Stephenson, D Morrey (2018). Digital construction: From point solutions to IoT ecosystem. Automation in Construction, 93: 35–46
https://doi.org/10.1016/j.autcon.2018.05.004
27 Y L Yao, H Lu, H N Qu (2015). Lifecycle information management of cloud computing information park based on BIM. Journal of Engineering Management, 29(3): 45–49 (in Chinese)
28 J Zhou, P G Li, Y H Zhou, B C Wang, J Y Zang, L Meng (2018). Toward new-generation intelligent manufacturing. Engineering. 4(1): 11–20
29 J Zhou, Y H Zhou, B C Wang, J Y Zang (2019). Human–cyber–physical systems (HCPSs) in the context of new-generation intelligent manufacturing. Engineering. 5(4): 624–636
30 J X Zhu, G Wright, J Wang, X Y Wang (2018). A critical review of the integration of geographic information system and building information modeling at the data level. ISPRS International Journal of Geo-Information, 7(2): 66
https://doi.org/10.3390/ijgi7020066
No related articles found!
Viewed
Full text


Abstract

Cited

  Shared   
  Discussed   
版权所有 © 2015 高等教育出版社.
电话: 010-58556848 (技术); 010-58556485 (订阅) E-mail: subscribe@hep.com.cn