Design and realization of the application demonstration system of emergency monitoring and evaluation of major natural disasters

doi:10.6046/gtzyyg.2014.03.29

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Abstract According to the process of major natural disaster emergency monitoring and evaluation and the requirement of the function of application demonstration, in combination with the integrated development technology of ComGIS,and on the basis of the development environment of JAVA and Microsoft.NET, the open source framework of GDAL and the map service of Geobeans, the authors integrated the Arc Engine platform and the Postgres database, and designed and developed the application demonstration system of major natural disaster emergency monitoring and evaluation. The authors also completed the database system, data processing and share service platform, computer business support platform and 6 demonstration systems, i.e., the service capabilities demonstration system of remote sensing disaster reduction, the application demonstration system of remote sensing disaster monitoring, the application demonstration system of risk assessment and early warning, the application demonstration system of remote sensing disaster assessment, the application demonstration system of disaster emergency support and the application demonstration system of the world integration information collection. And the system has been deployed from the central organ to the demonstration provinces. The system has realized the maximized sharing of the information and software and hardware resources, effectively reduced the threshold of the satellite data application and, with the domestic satellite data for the environment and disaster reduction satellite as the representative, improved the application level and utilization rate in disaster reduction, transportation and other industries.

Keywords ZY-1 02C satellite ETM⁺ data fusion remote sensing interpretation

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Issue Date: 01 July 2014

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	XU Bing
	FANG Chen

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XU Bing,FANG Chen. Design and realization of the application demonstration system of emergency monitoring and evaluation of major natural disasters[J]. REMOTE SENSING FOR LAND & RESOURCES, 2014, 26(3): 175-181.

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https://www.gtzyyg.com/EN/10.6046/gtzyyg.2014.03.29 OR https://www.gtzyyg.com/EN/Y2014/V26/I3/175

[1] 汤童,范一大,杨思全,王磊,等.2007年全国十大自然灾害事件[J].中国减灾,2008(1):11-13. Tang T,Fan Y D,Yang S Q,Wang L,et al.The top ten national natural disaster events in 2007[J].Disaster Reduction in China,2008(1):11-13.
[2] 汤童,范一大,杨思全,王磊,等.2008年十大自然灾害事件[J].中国减灾,2009(1):7-9. Tang T,Fan Y D,Yang S Q,Wang L,et al.The top ten national natural disaster events in 2008[J].Disaster Reduction in China,2009(1):7-9.
[3] 汤童,范一大,杨思全,王磊,等.2010年全国十大自然灾害事件[J].中国减灾,2011(1):10-11. Tang T,Fan Y D,Yang S Q,Wang L,et al.The top ten national natural disaster events in 2010[J].Disaster Reduction in China,2011(1):10-11.
[4] 汤童,范一大,杨思全,王磊,等.2011年全国十大自然灾害事件[J].中国减灾,2012(1):12-13. Tang T,Fan Y D,Yang S Q,Wang L,et al.The top ten national natural disaster events in 2011[J].Disaster Reduction in China,2012(1):12-13.
[5] 汤童,范一大,杨思全,王磊,等.2012年全国十大自然灾害事件[J].中国减灾,2013(3):4-5. Tang T,Fan Y D,Yang S Q,Wang L,et al.The top ten national natural disaster events in 2012[J].Disaster Reduction in China,2013(3):4-5.
[6] 范一大,杨思全,王磊,等.汶川地震应急监测评估方法研究[J].遥感学报,2008,12(6):858-864. Fan Y D,Yang S Q,Wang L,et al.Study on urgent monitoring and assessment in Wenchuan earthquake[J].Journal of Remote Sensing,2008,12(6):858-864.
[7] Tang T,He H X,Yu G,et al.Image processing and international service of HJ-1 satellites data[C]//2012 5th International Congress on Image and Signal Processing(CISP 2012):1586-1590.
[8] 民政部国家减灾中心.减灾卫星应用系统初步设计[R].北京:民政部国家减灾中心,2007. National Disaster Reduction Center of China.The preliminary design of disaster reduction satellite application system[R].Beijing:National Disaster Reduction Center of China,2007.
[9] 祖兆研.基于插件技术的软件架构设计及应用[D].南京:河海大学,2007. Zu Z Y.Design and Application of plug-ins software architecture[D].Nanjing:Hohai University,2007.

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