Difference between revisions of "Emergency Shelter Allocation Evaluation"
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==Setup== |
==Setup== |
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| + | As mentioned within the introduction Quantem GIS (QGIS) is used to carry out this analysis, and within this platform the GRASS Plugin is also used in combination with QGIS tools. The following two sections will provide specific instructions as to how to download the software and the appropriate set up to begin your project. |
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===Install QGIS=== |
===Install QGIS=== |
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===Install GRASS Plugin=== |
===Install GRASS Plugin=== |
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==Preliminary Analysis== |
==Preliminary Analysis== |
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===Deciding Area of Interest=== |
===Deciding Area of Interest=== |
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Revision as of 17:18, 15 December 2012
Contents
Introduction
FACT: Hawaii is the State most at risk of Tsunami conditions, Getting about one per year, a highly damaging one every 7 years. The biggest tsunami that occurred in Hawaii happened in 1946 when the coast of Hilo was hit with 30 ft waves at 500 mph, 170 fatalities. Click here for more facts of Tsunami Danger.
This project demonstrates how to make a spatial decision that determines the best use of monetary resources when further developing the emergency preparedness framework of a community. Spatial allocation decisions often can not be made most efficiently with consideration of only an independent variable, and scenarios realistically exist as multi-criteria based. This tutorial will demonstrate how this evaluation can be carried out using only Free and Open-Source Software(FOSS), particularly using the Quantum GIS (1.8.0) package and the GRASS Plugin.
Particularly, the scenario that outlines what the objectives are for this tutorial involve the expansion of Emergency Shelters in Hawaii pertaining to the emergency of a Tsunami event. The funding for this expansion has specific criteria which is as follows:
- Funds must be concentrated to the area of highest risk to large waves within the State.
- Shelter Location must be far away from Evacuation Land.
- Shelter Location must be in area of highest population density.
- Shelter Location must be far away from existing Shelters.
This tutorial is directed towards someone who has a minimal or basic understanding of GIS. The processes outlined throughout this tutorial may also be applicable in understanding gaps of public safety as a community evolves, or something as simple as determining the best location for a business expansion. The variety of applications are extremely widespread.
Data Collection
For this specific scenario, it was necessary to collect a variety of shapefiles (vector data) that are freely available online. There is a variety of online databases that have appropriate files with access to download freely. Sources of data very much depend on your geographical location and the government availability of free files.In this particular case the data was gathered from a catalog provided by the Hawaii State Government and U.S Census Bureau. Table 1. provides a specific breakdown of where each file was found and the adequacy of it.
| Shapefile Name | Format | Data Source | Description |
|---|---|---|---|
| Tsunami Evacuation Zones | Vector Polygon - Preliminary Analysis/Final Anaysis File | Hawaii State Office of Planning | High risk area to Tsunami impact. |
| Tsunami Wave Heights | Vector Point - Preliminary Analysis File | Hawaii State Office of Planning | Locations of large wave events along the coast, attributes include year by year breakdown of events. |
| Emergency Shelters | Vector Points | Hawaii State Office of Planning | Locations of Shelters, and individual capacity. |
| Census Tracts | Vector Polygon | U.S Census Bureau | Total Population by tract, 2009 TIGER/Line Shapefiles for: Hawaii |
Setup
As mentioned within the introduction Quantem GIS (QGIS) is used to carry out this analysis, and within this platform the GRASS Plugin is also used in combination with QGIS tools. The following two sections will provide specific instructions as to how to download the software and the appropriate set up to begin your project.
