GIS技术在城市地下管线管理中的应用
摘要
地下管线是城市的重要基础设施,它的安全运行是现代化城市高效率、高质量运转的保证。城市地下管线现状资料是城市规划、建设和管理的基础资料,只有尽快、全面、系统地掌握地下管线现状,才能为开发利用地下空间,如地下工程的规划、设计、施工及运行管理等提供完整的基础数据。数字化的地下管线信息在制定切实可行、技术先进和经济合理的城市规划设计与管理方案中有着重要的作用。所以数字化的城市地下管线管理是现代化城市管理的不可或缺的组成部分。但是目前因种种原因,城市地下管线的管理存在若干问题。例如,由于地下管线现状资料的缺漏和偏差以及传统管理方式的低效率,在施工中损坏地下管线从而导致停水、停电、通讯中断等事故的例子屡见不鲜;而有些道路及管线工程无法按设计进行施工,不得不在现场修改设计方案的事也经常发生。
本文首先阐述了GIS的基本概念及其在地下管线管理中的应用,分析了地下管线管理系统建立的必要性和可行性。详细讨论了地下管线管理系统开发的关键技术:组件开发技术、空间数据和属性数据一体化管理技术和三维管线显示技术。然后结合佛山市综合地下管线管理系统的建设实例,阐述了地下管线管理系统设计、数据库设计、管线数据模型和数据组织、系统开发方案选择、系统图形符号化方案整个完整的系统建设过程,对于其他城市的地下管线管理系统建设有一定参考意义。
Underground pipeline is a kind of important basic establishment of a city.It's safty running is the guarantee of modern city's efficiency and high quality running.The current urban underground pipeline data is the basic data of city planning, construction and management. Only after we have acquainted the underground pipeline data completely as quickly as more, we can exploitation the underground space. Such as offer entire basic data for the underground engineering's planning , design, construction and running management. Digital underground pipeline information plays great role in instituting feasible, technology advance and economic rational scheme of city planning ,designing and management. So digital management of city underground pipeline is a indispensable part of modern city management. But for some reason, there are some questions in underground pipeline's management. For example, because of the lack or warp of current underground pipeline data and the low efficiency of traditional management method,
the pipeline has often been destroyed in underground engineering and then leads to cut off water supply, power cut, communication broken. And sometimes road or pipeline engineering can not be carried out according to design and so the change of design plan always happens.
Firstly this paper discussed some basic concepts of GIS and it's use in the management of underground pipeline. It also analyze the
necessarity and feasibility of building underground pipeline management system. It discussed the key technology of underground pipeline management system's development: COM technology , integrative management technology of spatial data and attribute data and 3D pipeline display technology. Then, combined with the case of building FoShan underground pipeline management system, the paper expatiated on the whole system building process: system design, database design, pipeline data model and data organizing, system exploitation plan choosing and system graphic symbolization plan. It may be a reference to building other city's underground pipeline management system.
本文首先阐述了GIS的基本概念及其在地下管线管理中的应用,分析了地下管线管理系统建立的必要性和可行性。详细讨论了地下管线管理系统开发的关键技术:组件开发技术、空间数据和属性数据一体化管理技术和三维管线显示技术。然后结合佛山市综合地下管线管理系统的建设实例,阐述了地下管线管理系统设计、数据库设计、管线数据模型和数据组织、系统开发方案选择、系统图形符号化方案整个完整的系统建设过程,对于其他城市的地下管线管理系统建设有一定参考意义。
Underground pipeline is a kind of important basic establishment of a city.It's safty running is the guarantee of modern city's efficiency and high quality running.The current urban underground pipeline data is the basic data of city planning, construction and management. Only after we have acquainted the underground pipeline data completely as quickly as more, we can exploitation the underground space. Such as offer entire basic data for the underground engineering's planning , design, construction and running management. Digital underground pipeline information plays great role in instituting feasible, technology advance and economic rational scheme of city planning ,designing and management. So digital management of city underground pipeline is a indispensable part of modern city management. But for some reason, there are some questions in underground pipeline's management. For example, because of the lack or warp of current underground pipeline data and the low efficiency of traditional management method,
the pipeline has often been destroyed in underground engineering and then leads to cut off water supply, power cut, communication broken. And sometimes road or pipeline engineering can not be carried out according to design and so the change of design plan always happens.
Firstly this paper discussed some basic concepts of GIS and it's use in the management of underground pipeline. It also analyze the
necessarity and feasibility of building underground pipeline management system. It discussed the key technology of underground pipeline management system's development: COM technology , integrative management technology of spatial data and attribute data and 3D pipeline display technology. Then, combined with the case of building FoShan underground pipeline management system, the paper expatiated on the whole system building process: system design, database design, pipeline data model and data organizing, system exploitation plan choosing and system graphic symbolization plan. It may be a reference to building other city's underground pipeline management system.
引文
[1]区福邦.城市地下管线普查技术研究与应用.东南大学出版社,1998年
[2]邬伦.地理信息系统——原理、方法和应用.科学出版社,2002年
[3]陈述彭等.地理信息系统导论.科学出版社,2000
[4]刘光编著.地理信息系统二次开发教程组件篇.清华大学出版社,2003
[5]毕硕本等.地理信息系统软件工程的原理与方法.科学出版社,2003年
[6]吴信才等.地理信息系统设计与实现.电子工业出版社,2002年
[7]张新长等.城市地理信息系统.科学出版社,2001年
[8]李建汉.DirectX实用技巧.中国铁道出版社,2000年
[9]陈静勇,周来水.基于Java3D的虚拟现实建模方法.计算机应用研究,2002年
[10]谭斌.地下管网空间数据模型的建立与应用.四川测绘,2001年
[11]史惠春.雷伟刚等.城市地下管网信息系统研发实践.海洋测绘,2003年
[12]付海芳.数据交换在GIS中的应用.中南大学硕士论文,2002年
[13]郭朝勇等.AutoCAD R14二次开发技术.清华大学出版社,1999年
[14]樊红,詹小国.ArcInfo应用与开发技术.武汉大学出版社,2002年
[15]罗小兵,李斌.VB多媒体特效制作.中国电力出版社,2001年
[16]凌宇,唐明浩.基于VRML的交互式技术及应用.微型电脑应用,2002年18卷第一期
[17]路甬祥等.地理信息系统名词.科学出版社,2002年
[18]秦小阳.大中型企业地下管网信息系统的建立.河北煤炭,2002年第四期
[19]李峰林,王韩波。应用地理信息系统动态管理地下管网信息.工程勘察,1997年第二期
[20]何塞峰等.综合地下管网信息子系统的设计研究.GIS应用论文专辑
[21]张雨明等.城市地下管网GIS总体设计研究.新疆石油学院学报,2001年
[22]广州市城市规划局.广州市地下管线普查技术规程.广州,1995
[23]吴信才.地理信息系统的基本技术与发展动态.地球科学,1998
[24]修文群,池天河.城市地理信息系统(GIS).北京:北京希望电子出版社,1999
[25]张新生.城市可持续发展与空间决策支持,地理学报,52(6)
[26]宋关福.组件式地理信息系统研究.中国科学院地理研究所博士论文,1998
[27]龚健雅.当代GIS的若干理论与技术.武汉:武汉测绘技术大学,1999
[28]朱光.地理信息系统基本原理及应用.北京:测绘出版社,1997
[29]William E. Huxhold. An Introduction to Urban Geographic Information Systems. New York: Oxford University Press, Inc.,1991
[30]Sakura Shinoaki. Tokyo Gas: An Intergrated GIS in Action. GIS Asia
Pacific, Vol. 1, No. 4, August 1995
[31] Douglas and Peucker(1973):Algorithms for the Reduction of the Number of Points Required to Represent a Dititiced Lineor it's Caricature. The Canadian Cartographic, 10(2),1973
[32] Amstrong M. P.,&P. J. Densham, 1990, Database orgnazation strategies for spatial decision support systems, Int. J. of Geographical Information Systems, 4
[33] Buffough P.A, 1992, Development of Intelligent Geographical Information Systems, Int. J. of Geographical Information Systems, 6
[34] Dieter Fritsch, 1996, Three-Dimentional Geographic Information system: Status and Prospects, In:Karl Kraus, Peter aldhausl, ed. International Archives of Photogrammetry and Remote Sensing, Vienna, Austria, ⅩⅩⅪ(Part B3)
[35] Paul, A. Longley and Sue, M. Brooks, 1998, Geocomputation
[36] Andrew MacDonald. Building a Geodatabase. Esri
[37] http://www.esri.com
[38] http://www.esrichina-bj.cn
[39] http://www.gischina.com
[2]邬伦.地理信息系统——原理、方法和应用.科学出版社,2002年
[3]陈述彭等.地理信息系统导论.科学出版社,2000
[4]刘光编著.地理信息系统二次开发教程组件篇.清华大学出版社,2003
[5]毕硕本等.地理信息系统软件工程的原理与方法.科学出版社,2003年
[6]吴信才等.地理信息系统设计与实现.电子工业出版社,2002年
[7]张新长等.城市地理信息系统.科学出版社,2001年
[8]李建汉.DirectX实用技巧.中国铁道出版社,2000年
[9]陈静勇,周来水.基于Java3D的虚拟现实建模方法.计算机应用研究,2002年
[10]谭斌.地下管网空间数据模型的建立与应用.四川测绘,2001年
[11]史惠春.雷伟刚等.城市地下管网信息系统研发实践.海洋测绘,2003年
[12]付海芳.数据交换在GIS中的应用.中南大学硕士论文,2002年
[13]郭朝勇等.AutoCAD R14二次开发技术.清华大学出版社,1999年
[14]樊红,詹小国.ArcInfo应用与开发技术.武汉大学出版社,2002年
[15]罗小兵,李斌.VB多媒体特效制作.中国电力出版社,2001年
[16]凌宇,唐明浩.基于VRML的交互式技术及应用.微型电脑应用,2002年18卷第一期
[17]路甬祥等.地理信息系统名词.科学出版社,2002年
[18]秦小阳.大中型企业地下管网信息系统的建立.河北煤炭,2002年第四期
[19]李峰林,王韩波。应用地理信息系统动态管理地下管网信息.工程勘察,1997年第二期
[20]何塞峰等.综合地下管网信息子系统的设计研究.GIS应用论文专辑
[21]张雨明等.城市地下管网GIS总体设计研究.新疆石油学院学报,2001年
[22]广州市城市规划局.广州市地下管线普查技术规程.广州,1995
[23]吴信才.地理信息系统的基本技术与发展动态.地球科学,1998
[24]修文群,池天河.城市地理信息系统(GIS).北京:北京希望电子出版社,1999
[25]张新生.城市可持续发展与空间决策支持,地理学报,52(6)
[26]宋关福.组件式地理信息系统研究.中国科学院地理研究所博士论文,1998
[27]龚健雅.当代GIS的若干理论与技术.武汉:武汉测绘技术大学,1999
[28]朱光.地理信息系统基本原理及应用.北京:测绘出版社,1997
[29]William E. Huxhold. An Introduction to Urban Geographic Information Systems. New York: Oxford University Press, Inc.,1991
[30]Sakura Shinoaki. Tokyo Gas: An Intergrated GIS in Action. GIS Asia
Pacific, Vol. 1, No. 4, August 1995
[31] Douglas and Peucker(1973):Algorithms for the Reduction of the Number of Points Required to Represent a Dititiced Lineor it's Caricature. The Canadian Cartographic, 10(2),1973
[32] Amstrong M. P.,&P. J. Densham, 1990, Database orgnazation strategies for spatial decision support systems, Int. J. of Geographical Information Systems, 4
[33] Buffough P.A, 1992, Development of Intelligent Geographical Information Systems, Int. J. of Geographical Information Systems, 6
[34] Dieter Fritsch, 1996, Three-Dimentional Geographic Information system: Status and Prospects, In:Karl Kraus, Peter aldhausl, ed. International Archives of Photogrammetry and Remote Sensing, Vienna, Austria, ⅩⅩⅪ(Part B3)
[35] Paul, A. Longley and Sue, M. Brooks, 1998, Geocomputation
[36] Andrew MacDonald. Building a Geodatabase. Esri
[37] http://www.esri.com
[38] http://www.esrichina-bj.cn
[39] http://www.gischina.com