Gis application in emrgency management

Maps and data may be layered, displayed, edited, and analyzed in literally thousands of different ways by careful selection of data-points being considered by the user.

GIS is a very useful tool for many aspects of emergency management including emergency response, planning, mitigation, exercises, homeland security, response, and recovery.

GIS has robust modeling capabilities, allowing its users to adjust data and scenarios for prediction, planning, and estimation.

GIS capability is enhanced when FEMA’s Hazus software and other tools are incorporated.

GIS provides emergency management personnel and decision makers the information they need to make accurate and timely decisions.

Audio Transcript

Maps and data may be layered, displayed, edited, and analyzed in literally thousands of different ways by careful selection of data-points being considered by the user.

GIS is a very useful tool for many aspects of emergency management including emergency response, planning, mitigation, exercises, homeland security, response, and recovery.

GIS has robust modeling capabilities, allowing its users to adjust data and scenarios for prediction, planning, and estimation.

GIS capability is enhanced when FEMA’s Hazus software and other tools are incorporated. Hazus is a GIS program which produces economic loss and social impacts for earthquakes, floods, hurricanes, and tsunamis.

GIS provides emergency management personnel and decisionmakers the information they need to make accurate and timely decisions.

Course Goal and Content

This course is designed for individuals who use GIS to support emergency management mitigation, planning, response, and recovery operations.

Lesson 1 Course Objectives

After completing the course you should be able to:

While the course will not promote specific GIS solutions, it will:

The course content is divided into six lessons. To help you keep track of your place within the course, the current lesson title will be displayed in the upper left corner of each screen.

Lesson Descriptions Lesson 1 Overview and Objectives How Did GIS Get Its Start? What Is GIS Today? GIS: More Than a Map (1 of 2) GIS: More Than a Map (2 of 2)

GIS functions include the ability to:

Each of these functions will be covered in more detail later in this course.

Other Emergency Management Uses of GIS Available GIS Tools Other GIS Resources Available to Emergency Managers Lesson Summary IS-922 - Applications of GIS for Emergency Management

Lesson 2 Overview and Objectives

Course Welcome

This lesson introduces basic information about GIS capabilities.

At the end of this lesson, you should be able to:

GIS Components

Remember that Dr. John Snow first used GIS to track a cholera outbreak in London. The same components that Dr. Snow used to solve his problem remain the basis of GIS today. Fortunately, computers allow a much greater application of each component.

This lesson will describe how modern GIS uses three main components:

GIS Base Map
Graphic showing data layering in GIS. At the left is the area to be examined. At the right is an illustration of how data can be layered: Base Map, Topography, Roadways, Utilities, and Zoning. The resulting data can be manipulated and analyzed. Other data sets may be used, depending on the need.
Typical Base Map Features Input Data

Input data can be collected on almost anything and can be linked to at least one, and usually several, geographic locations. Most input data have already been georeferenced—that is, the data have been linked digitally to a geographic location.

GIS data can be grouped into two categories:

There are three types of vector data:

These data types are described on the next screens.

GIS Data Types

GIS data can be grouped into one of two categories: