UNIT 3 MODULE 6 Data Analysis TERMINOLOGY There

TERMINOLOGY • There are several terms that are important to know when discussing data

MEASUREMENTS IN GIS • A standard component to a GIS is the ability to

MEASUREMENTS IN GIS (Continued) • For a vector GIS, distances are measured via the

QUERIES • A way to retrieve specific data within a GIS database. • Allows

ASPATIAL QUERIES • Questions about a features’ attributes. • Example #1: “How many luxury

RECLASSIFICATION • As previously discussed, a raster GIS involves a collection of cells that

EXAMPLE • Top-left image shows four different land covers. • Top-right image shows two

BUFFERING • A zone around an object or map feature. • Measured in distance,

VECTOR & RASTER BUFFER Credit: www. geo. hunter. cuny. edu

MAP OVERLAY • Allows the GIS user to analyze two or more different data

VECTOR OVERLAY • Also called a polygon overlay. • Relies heavily on geometry &

RASTER OVERLAY • Also called a grid overlay. • Everything represented by cells: §

NETWORK ANALYSIS • Network – a set of interconnected lines making up a set

ROUTE TRACING • The ability to trace flows of goods, people, services & information

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UNIT 3 – MODULE 6: Data Analysis

TERMINOLOGY • There are several terms that are important to know when discussing data analysis: – Entity – an individual point, line or area in a GIS database. – Attribute – data about an entity. – Feature – an object in the real world to be encoded into a GIS database. – Data Layer – a data set for the area of interest in a GIS. – Image – a data layer in a raster GIS. – Cell – an individual pixel in a raster image.

MEASUREMENTS IN GIS • A standard component to a GIS is the ability to calculate lengths, perimeters & areas. • All GIS measurements are an approximation. • There are three raster GIS measurements available for calculating distance: – Pythagorean distance – Manhattan distance – Proximity • For raster data, perimeter & area calculations can be impacted by: 1) cell size, 2) origin, and 3) grid orientation.

MEASUREMENTS IN GIS (Continued) • For a vector GIS, distances are measured via the Pythagorean theorem. To calculate perimeters & areas, geometry is used. Credit: NASA

QUERIES • A way to retrieve specific data within a GIS database. • Allows you to ask questions by selecting a specific criteria. A GIS database then highlights the data that fits your query. • Queries are useful throughout the GIS project, particularly for checking data quality. • There are two types of queries: – Spatial – Aspatial

ASPATIAL QUERIES • Questions about a features’ attributes. • Example #1: “How many luxury homes are there? ” This is an aspatial query because location is absent from the question. • Example #2: “Where are the luxury homes? ” This is a spatial query because location (where) is being asked. • Spatial and aspatial queries can be asked in conjunction with one-another. Example: “Where are the luxury homes that have more than five bedrooms? ”

RECLASSIFICATION • As previously discussed, a raster GIS involves a collection of cells that have values assigned. • Values can be reclassified. This can result in a new image if working with a raster land use image. It could also be used to assign new values to different land uses based on ecological importance. It all depends on what you’re trying to accomplish/show. • Reclassification allows for a greater analysis beyond the initial analysis.

EXAMPLE • Top-left image shows four different land covers. • Top-right image shows two different land covers after reclassification. • Bottom image shows reclassification of thematic values (leads to a new image). Credit: www. giscommons. org Credit: www. enggarticles. com

BUFFERING • A zone around an object or map feature. • Measured in distance, but can also be measured in time. • Very useful for proximity analysis. Credit: www. arcgis. com *

VECTOR & RASTER BUFFER Credit: www. geo. hunter. cuny. edu

MAP OVERLAY • Allows the GIS user to analyze two or more different data sources. • Has many applications. Example: which hotels are located 500 meters or less of the main road? Can apply a buffer zone, then overlay hotel data. • Two types of map overlay: vector & raster. Credit: Penn State University

VECTOR OVERLAY • Also called a polygon overlay. • Relies heavily on geometry & topology. • There are three types of vector overlay: § Point-In-Polygon § Line-In-Polygon § Polygon-On-Polygon Credit: Penn State University

TYPES OF VECTOR OVERLAY Credit: ESRI

RASTER OVERLAY • Also called a grid overlay. • Everything represented by cells: § Point – Single Cell § Line – String of Cells § Area – Group of Cells • With raster overlay, layers can be added, subtracted, multiplied or divided. • Two issues need to be considered during this process: resolution & measurements scales. Credit: Penn State University

NETWORK ANALYSIS • Network – a set of interconnected lines making up a set of features through which resources can flow. • Examples: rivers, road, pipelines & cables. • Different network analysis methods available to solve problems: – Shortest Path Method – Traveling Salesperson – Location-Allocation Modeling – Route Tracing Credit: www. irenepro. com

ROUTE TRACING • The ability to trace flows of goods, people, services & information through a network. • One of several methods for conducting network analysis. • Can be useful for finding residents impacted by a broken cable, or customers served by a specific sewer main. Credit: ESRI