Research and implementation of pipeline management and control platform based on process control
BAO Hangcheng1, SHOU Yangkan2, FANG Lei3
1. City Planning and Geomatics Center of Jinhua, Jinhua 321000, Zhejiang Province, China;
2. Jinhua Institute of Surveying and Mapping, Jinhua 321000, Zhejiang Province, China;
3. Shenzhen Institute of Research and Innovation, Hong Kong University, Shenzhen 518000, Guangzhou Province, China
Abstract:Underground pipeline is an important part of urban infrastructure, urban planning, construction and management. It provides a substantial foundation for the survival and development of the city. In recent years, underground pipeline accidents occur frequently which exposes serious problems in its management. While the administration pas much attention on the surveys of pipeline, the importance of real time data update, has often been overlooked, and the database usually loses its validity not long after each census. In order to solve this problem, this article proposes the idea of building a life-cycle model of project. In this model, the project will be managed in a completed linked system covering submission, approval, construction, supervision, completion and archiving. Each government department is required to upload the key data to the relevant platform and all the data will be integrated into a pipeline project database for sharing. Meanwhile, all departments can download data on demand to complete their own database. The management and control platform aims to make clear the responsibility of each department and connect them with each other during the entire process of pipeline management. It hence allows each pipeline project to be controlled in a better way with stricter procedure of approval and supervision, and promotes continuous and dynamic update of the pipeline database.
包航成, 寿杨侃, 方雷. 基于流程监管的管线管控平台的研究与实现[J]. 浙江大学学报(理学版), 2017, 44(4): 499-504.
BAO Hangcheng, SHOU Yangkan, FANG Lei. Research and implementation of pipeline management and control platform based on process control. Journal of ZheJIang University(Science Edition), 2017, 44(4): 499-504.
[1] 周立国,冯学智,佘江峰,等.城市综合地下管线信息系统实现及几个关键问题的探讨[J].遥感信息,2008(2):80-85. ZHOU L G, FENG X Z, SHE J F, et al. Realization of information system of urban integrated underground pipeline and discussion on some key questions[J]. Remote Sensing Information,2008(2):80-85.
[2] 余宏远,魏宏源,刘志科.城市地下管线管理系统GIS总体设计研究[J].河西学院学报,2015,31(2):50-54. YU H Y, WEI H Y, LIU Z K. Research on urban underground pipeline management system overall design of GIS[J]. Journal of Hexi University,2015,31(2):50-54.
[3] 胡国林.智能城市地下管线综合管理方案——美国811模式的借鉴和创新[J].建设科技,2014(24):84-87. HU G L. Intelligent urban underground pipeline comprehensive management solution-811 model reference and innovation in the United States[J]. Construction Science and Technology,2014(24):84-87.
[4] 康凯.北京以信息互通减少施工外力破坏地下管线事故[J].城市管理与科技,2013(4):18-20. KANG K. Communication reduce external forces destroy underground pipeline construction accidents in Beijing[J]. Municipal Administration & Technology,2013(4):18-20.
[5] 林卫宠,陈炎生,裘松樵,等.多措并举推进地下管线建设管理[J].安全与健康,2014(10):5-7. LIN W C, CHEN Y S, QIU S Q, et al. More measures to promote the construction of underground pipeline management[J]. Safety & Health, 2014(10):5-7.
[6] 刘新党.基于AE的城市地下管线管理系统的建设与实现[J].测绘,2009(4):168-170. LIU X D. The construction and realization for the urban underground thread managing system based on AE[J].Surveying and Mapping of Sichuan, 2009(4):168-170.
[7] 余宏远,魏宏源.基于GIS城市综合管线管理系统总体设计的探究[J].矿山测量,2014(4):52-55. YU H Y, WEI H Y. The overall design of the urban comprehensive pipeline management system based on GIS[J]. Mine Surveying,2014(4):52-55.