2016 Multi-Stage Remote Sensing Data Analysis and Disaster Display Platform Expansion and Maintenance

Abstract

Global warming is already having significant and costly effects on our communities, our health, and our climate. These impacts will continue to intensify, grow ever more costly and damaging, and increasingly affect the entire planet. The consequence is now accelerating the rate of sea level rise, increasing flooding risks to low-lying communities and high-risk coastal properties whose development has been encouraged by today's flood insurance system. 5S(5 Spatial) information is been utilized in this project.

This system was designed for users of Water Resources Agency(WRA) which is the Disaster Prevention and Emergency Response Geospatial Information System (DPERGIS) that was developed, expanded and maintained by this project, has successfully integrated hydrology, meteorology, warnings, disasters and all kinds of important GIS data. It is very convenient for users to access DPERGIS via internet and set up various criteria of space and time to quickly search and display those GIS data related to water resource disaster prevention and emergency response. Meanwhile, all GIS data can be easily overlaid with each other by DPERGIS, which enables the users to make a cross comparison and analysis, as well as supporting the work of disaster emergency response and decision making in water resource.

DPERGIS involed GIS(Geographic Information System)、RS(Remote Sensing)、GPS(Global Positioning System) which includes multi-scale 3D animation、table list and bottom selction、overlapping realtime and historical data in images and vectors format to support necessary information to WRA’s staff to make decision for disaster events as possible. Devided subdata set could be manupulated by each local river agency and dam agency for their interested targets. Four tasks are implemented in this project as (1)Extend and maintain system functions and data sets. (2) Join WRA disaster contingency group. (3) Making system training and attend WRA annual conference. (4) Remote Sensing Data collection and analysis.

The advantage of this system are providing multiscale data of disaster information in time and spatial domain under 5S skill, let staff of WRA more easy to make right decision in the right time for decreasing severe disaster occurred and quicky make strategy of disaster recovery. This project indeed provide a powerful platform that is able to support the work of disaster emergency response and decision making in water resource.

Key Words: Urgent response, Decision making, Disaster Prevention geospatial system, Disaster Prevention in water resource, Remote Sensing Information