铁道运输与经济2023,Vol.45Issue(12):107-114,8.DOI:10.16668/j.cnki.issn.1003-1421.2023.12.14
基于BIM技术的高速铁路设备运维管理关键技术及总体设计方案研究
Research on Key Technologies and Overall Design Scheme of High Speed Railway Equipment Operation and Maintenance Management Based on BIM Technology
摘要
Abstract
Building Information Modeling(BIM)is a data-based tool applied in engineering design,construction and management.During the high speed railway construction process,the implementation of BIM technology in engineering design and project construction management has played an important role in optimizing engineering design,enhancing construction organization,saving costs and reducing construction duration.However,research and exploration in the railway operation and maintenance stage are not deep enough.The study selected the Jiningbei-Juyebei"three stations and two intervals"in the Qufu-Heze section of the Rizao-Lankao High Speed Railway as its research subject to conduct a comprehensive analysis of the requirements during the high speed railway operation and maintenance stage.BIM technology was utilized as the primary means of implementation,establishing"a set of standards",applying"one set of data",and constructing"an integrated platform".By integrating GIS and Beidou technology and focuing on research related to BIM delivery standards,equipment management interfaces,joint testing and commissioning,as well as platform construction and application development,the study puts forward a complete technical program for BIM data handover,platform construction,and intelligent operation and maintenance.This is of certain guiding significance for the transition of BIM technology from the construction stage to the operation and maintenance stage of high speed railways.关键词
BIM/GIS/北斗/运维管理平台/铁路智能运维Key words
BIM/GIS/Beidou Navigation/Operation and Maintenance Management Platform/Railway Intelligent Operation and Maintenance分类
交通工程引用本文复制引用
袁敦磊,王晓刚,刘学福,王兴鲁..基于BIM技术的高速铁路设备运维管理关键技术及总体设计方案研究[J].铁道运输与经济,2023,45(12):107-114,8.基金项目
中国铁路济南局集团有限公司科技研究开发计划课题(2021X05) (2021X05)
