顺德防洪决策指挥系统的设计
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摘要
在我国目前的情况下,防洪仍然主要依靠技术手段,包括工程技术手段和非工程技术手段。随着GIS在水利领域的应用逐渐深入,防洪决策部门将它作为分析、决策、模拟甚至预测的工具。作者在对建设防洪决策支持系统的研究中融入防洪风险管理思想,并以此为基础重新构建基于GIS平台的防洪减灾决策支持系统,把GIS技术在防洪抗灾方面运用推入更高的层次。
防汛指挥决策涉及地理环境、社会经济与工程技术等多个方面,信息量大,突发情况多,决策过程往往综合了多个方面的考虑。本文以地理信息系统为平台,以各种信息技术为支撑,构建新型防洪决策支持系统。通过本文的研究,主要在以下几个方面取得了进展:
(一)以顺德防洪减灾工作作为背景素材,针对其旧有的信息系统,结合现代先进的防洪风险管理思想,融入作者对水利信息化建设的理解,从建立专业的地理信息系统空间数据库、属性数据库、查询系统的构建、专家预测系统建立等方面全面探讨。
(二)通过对目前已经建成的防洪决策支持系统的深入了解的基础上,重新从水利数据管理,水利工程管理,洪灾风险管理,洪水调度,城市防洪,会商决策以及业务办公等方面设计全新的防洪决策支持系统的总体框架。
(三)本文在进行系统设计时,考虑实践项目实施的各项目设计原则,融入软件、硬件及多种信息技术知识,对系统的具体实施更具实践意义。
(四)在水利工程管理方面,从旧有的单纯的水利工情数据库扩展到以水利工情信息为基础数据背景的工程风险管理系统,对各类防洪工程在洪水状态下的安全性进行评估、城市防洪工程规划、城市发展与防洪工程相结合、工程实施投资效益分析、工程建设对环境质量的影响等等。
(五)在防洪调度方面,从单纯的防洪调度:防洪工程调度方案的制订和评价,通过综合分析确定淹没范围,扩展到社会经济损失分析与评估。包括灾前风险评估、出现洪灾时的实时灾情监测评估、洪水过后的灾后损失评估。以及有关洪水保险补偿;灾后重建的社会、国家补偿预测及规划等。
摘要
(六)此外,为适应当前迅速地城市化进程,同时为了适合顺德的社会实
际情况,作者在GIS为平台构架的防洪体系当中更增加城市防洪管理模块。
With the social development ,human being can control and manage the flood more and more .But ,the flood have never reduced . At the same time ,the technology of GIS is used in field of water conservancy more and more .Some departments use it as a tool for analyzing ,decision-making, imitating, and forecasting , which brings much social economic benefit clearly .The technology of GIS is mostly used in the flood information system ,which includes of geographic environment, social economic and engineering means etc. Because there are much information, much emergency ,quick decision, it is asked good ability to deal with data and make speed reflect.
in the fact, according to the experience of the developed countries ,it is very difficult to reduce the disaster of flood as lowest as possible only by engineering means .it is neither realistic nor integrant to reduce the disaster of flood only by engineering means . So ,in order to lower the disaster of flood ,it is a good way to use the system of flood detention district ,flood insurance, reestablishment etc. Although there are some flood detention districts in some places in China, no perfect and operational flood hazard risk management decision support system is established now. We are searching some new thought of controlling and managing flood by risk management policy.
flood hazard risk management decision support system, FHRMDSS include of geographic environment .social economy and engineering technology with much data .It need to think about many fields during decision-making process. The aim of this study is build a flood decision support system with the flood risk management . This research area is complemented by the development of a GIS application as an integrated tool for the support of management process. This area aims to test and developed specific methodology of treatment of digital data relevant in this kind of study. The Geographic Information Systems (GIS) allows the modulation and simulation of different scenarios and the graphic representation of the different alternatives. In order to present and explain to a non expert public like politicians and the population in the floodplain, multimedia technology will play a valuable role trying to make the decision making process more participated.
In this study ,the author try to find a way to establish a new flood hazard risk management decision system by GIS and other technologies ,which will harmonize with the nature rule of the flood Then the system will reduce the hazard of the flood through managing flood correctly and benefit to the human beings .
防汛指挥决策涉及地理环境、社会经济与工程技术等多个方面,信息量大,突发情况多,决策过程往往综合了多个方面的考虑。本文以地理信息系统为平台,以各种信息技术为支撑,构建新型防洪决策支持系统。通过本文的研究,主要在以下几个方面取得了进展:
(一)以顺德防洪减灾工作作为背景素材,针对其旧有的信息系统,结合现代先进的防洪风险管理思想,融入作者对水利信息化建设的理解,从建立专业的地理信息系统空间数据库、属性数据库、查询系统的构建、专家预测系统建立等方面全面探讨。
(二)通过对目前已经建成的防洪决策支持系统的深入了解的基础上,重新从水利数据管理,水利工程管理,洪灾风险管理,洪水调度,城市防洪,会商决策以及业务办公等方面设计全新的防洪决策支持系统的总体框架。
(三)本文在进行系统设计时,考虑实践项目实施的各项目设计原则,融入软件、硬件及多种信息技术知识,对系统的具体实施更具实践意义。
(四)在水利工程管理方面,从旧有的单纯的水利工情数据库扩展到以水利工情信息为基础数据背景的工程风险管理系统,对各类防洪工程在洪水状态下的安全性进行评估、城市防洪工程规划、城市发展与防洪工程相结合、工程实施投资效益分析、工程建设对环境质量的影响等等。
(五)在防洪调度方面,从单纯的防洪调度:防洪工程调度方案的制订和评价,通过综合分析确定淹没范围,扩展到社会经济损失分析与评估。包括灾前风险评估、出现洪灾时的实时灾情监测评估、洪水过后的灾后损失评估。以及有关洪水保险补偿;灾后重建的社会、国家补偿预测及规划等。
摘要
(六)此外,为适应当前迅速地城市化进程,同时为了适合顺德的社会实
际情况,作者在GIS为平台构架的防洪体系当中更增加城市防洪管理模块。
With the social development ,human being can control and manage the flood more and more .But ,the flood have never reduced . At the same time ,the technology of GIS is used in field of water conservancy more and more .Some departments use it as a tool for analyzing ,decision-making, imitating, and forecasting , which brings much social economic benefit clearly .The technology of GIS is mostly used in the flood information system ,which includes of geographic environment, social economic and engineering means etc. Because there are much information, much emergency ,quick decision, it is asked good ability to deal with data and make speed reflect.
in the fact, according to the experience of the developed countries ,it is very difficult to reduce the disaster of flood as lowest as possible only by engineering means .it is neither realistic nor integrant to reduce the disaster of flood only by engineering means . So ,in order to lower the disaster of flood ,it is a good way to use the system of flood detention district ,flood insurance, reestablishment etc. Although there are some flood detention districts in some places in China, no perfect and operational flood hazard risk management decision support system is established now. We are searching some new thought of controlling and managing flood by risk management policy.
flood hazard risk management decision support system, FHRMDSS include of geographic environment .social economy and engineering technology with much data .It need to think about many fields during decision-making process. The aim of this study is build a flood decision support system with the flood risk management . This research area is complemented by the development of a GIS application as an integrated tool for the support of management process. This area aims to test and developed specific methodology of treatment of digital data relevant in this kind of study. The Geographic Information Systems (GIS) allows the modulation and simulation of different scenarios and the graphic representation of the different alternatives. In order to present and explain to a non expert public like politicians and the population in the floodplain, multimedia technology will play a valuable role trying to make the decision making process more participated.
In this study ,the author try to find a way to establish a new flood hazard risk management decision system by GIS and other technologies ,which will harmonize with the nature rule of the flood Then the system will reduce the hazard of the flood through managing flood correctly and benefit to the human beings .
引文
[1]张建云.水利信息化的发展思路和建设任务.水利信息化建设专刊.2002年.http://www.cws.net.cn/
[2]汪恕成.水利部长讲话.水利信息化建设专刊2002年.http://www.cws.net.cn/
[3]水利部信息化工作领导小组办公室.金水工程“十五”计划及到2010年规划纲要(讨论稿).2001年4月.
[4]数字广西.测绘信息.测绘知识.http://www.digitalgx.com/Information/knowledge/gis1.htm
[5]李纪人.地理信息系统在水利中的利用.http://www.cws.net.cn/CWR Journal/200108/32.html
[6]孙以义.计算机地图制图.科学出版社,1998年.
[7]梁启章.GIS计算机制图.1998年
[8]刘树坤.国外防洪减灾发展趋势.http://www.cws.net.cn/CWSnet/jzzhxin/2001-lwxj/28.html
[9]王开元.浅谈德法荷三国防洪减灾的主要做法和经验.http://www.cws.net.cn/CWSnet/jzzhxin/2001-lwxj/35.html
[10]向立云.国外洪水管理与防洪规划综述.中国水利出版社.2001年.
[11]刘建坤.防洪减灾发展趋势.水利水电科技进展,2000,20(1).
[12]刘建民.水资源规划与管理决策支持系统的发展和应用.水科学进展,1995(3).
[13]余达征,索丽生.关于防洪调度智能决策支持系统的分析与设计.水文,1999(2).
[14]付湘.防洪减灾中的风险管理研究.武汉:武汉水利电力大学出版社,1999.
[15]Ralph L. Kliem & Irwin S. Ludin: Reducing Project Risk,唐健译,宇航出版社,1999。
[16]程晓陶、向立云等.海河流域防洪安全保障体系发展战略研究.中国水利水电科学研究院研究报告,水利水电出版社,2000。
[17]胡鞍钢,中国发展前景,浙江人民出版社,1999。
[18]《第二次中美水文情报预报研讨会论文集》水利部水文水利调度中心编,中国水利水电出版社,2002年.
[19]徐乾清,对未来防洪减灾形势和对策的一些参考,水科学进展,水利水电出版社,1999年第3期。
[20]顺德信息视窗http://www.shunde.net.cn/
[21]乔盛西,唐文雅主编.广州地区旧志气候史料汇编与研究.广州市地方志编纂委员会办公室,湖北省气候应用所合编,广东人民出版社.1998.
[22]陈秀万,洪水灾害损失评估系统,中国水利出版社,1999年.
[23]适普公司,空间数据服务网站,2002/11/17.
[24]陈俊,宫鹏.实用地理信息系统——成功地理信息系统的建设与管理.科学出版社.2000.
[25]梁启章,GIS计算机制图.中国科出版社,1998.
[26]陆守一,唐小明,王国胜编著.地理信息系统实用教程,中国林业出版社,2000.
[27]杜清远,数字环境下地图学发展的若干问题,第三届两岸测绘发展研讨会(2000.12.香港)论文集.
[28]毛锋等编著,地理信息系统建库技术及其应用.中国科学出版社,2002.
[29]吴信才,地理信息系统设计与实现.电子工业出版社,2002年.
[30]郝力,城市地理信息系统及应用.电子工业出版社,2002年.
[31]孙增义,吴跃主编,水情自动测报技术基础及其应用.中国水利水电出版社,1999.
[32]熊怡,张家桢.中国水文区划,科学出版社.1995.
[2]汪恕成.水利部长讲话.水利信息化建设专刊2002年.http://www.cws.net.cn/
[3]水利部信息化工作领导小组办公室.金水工程“十五”计划及到2010年规划纲要(讨论稿).2001年4月.
[4]数字广西.测绘信息.测绘知识.http://www.digitalgx.com/Information/knowledge/gis1.htm
[5]李纪人.地理信息系统在水利中的利用.http://www.cws.net.cn/CWR Journal/200108/32.html
[6]孙以义.计算机地图制图.科学出版社,1998年.
[7]梁启章.GIS计算机制图.1998年
[8]刘树坤.国外防洪减灾发展趋势.http://www.cws.net.cn/CWSnet/jzzhxin/2001-lwxj/28.html
[9]王开元.浅谈德法荷三国防洪减灾的主要做法和经验.http://www.cws.net.cn/CWSnet/jzzhxin/2001-lwxj/35.html
[10]向立云.国外洪水管理与防洪规划综述.中国水利出版社.2001年.
[11]刘建坤.防洪减灾发展趋势.水利水电科技进展,2000,20(1).
[12]刘建民.水资源规划与管理决策支持系统的发展和应用.水科学进展,1995(3).
[13]余达征,索丽生.关于防洪调度智能决策支持系统的分析与设计.水文,1999(2).
[14]付湘.防洪减灾中的风险管理研究.武汉:武汉水利电力大学出版社,1999.
[15]Ralph L. Kliem & Irwin S. Ludin: Reducing Project Risk,唐健译,宇航出版社,1999。
[16]程晓陶、向立云等.海河流域防洪安全保障体系发展战略研究.中国水利水电科学研究院研究报告,水利水电出版社,2000。
[17]胡鞍钢,中国发展前景,浙江人民出版社,1999。
[18]《第二次中美水文情报预报研讨会论文集》水利部水文水利调度中心编,中国水利水电出版社,2002年.
[19]徐乾清,对未来防洪减灾形势和对策的一些参考,水科学进展,水利水电出版社,1999年第3期。
[20]顺德信息视窗http://www.shunde.net.cn/
[21]乔盛西,唐文雅主编.广州地区旧志气候史料汇编与研究.广州市地方志编纂委员会办公室,湖北省气候应用所合编,广东人民出版社.1998.
[22]陈秀万,洪水灾害损失评估系统,中国水利出版社,1999年.
[23]适普公司,空间数据服务网站,2002/11/17.
[24]陈俊,宫鹏.实用地理信息系统——成功地理信息系统的建设与管理.科学出版社.2000.
[25]梁启章,GIS计算机制图.中国科出版社,1998.
[26]陆守一,唐小明,王国胜编著.地理信息系统实用教程,中国林业出版社,2000.
[27]杜清远,数字环境下地图学发展的若干问题,第三届两岸测绘发展研讨会(2000.12.香港)论文集.
[28]毛锋等编著,地理信息系统建库技术及其应用.中国科学出版社,2002.
[29]吴信才,地理信息系统设计与实现.电子工业出版社,2002年.
[30]郝力,城市地理信息系统及应用.电子工业出版社,2002年.
[31]孙增义,吴跃主编,水情自动测报技术基础及其应用.中国水利水电出版社,1999.
[32]熊怡,张家桢.中国水文区划,科学出版社.1995.
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