1 / 33

19 th Advanced Summer School in Regional Science

19 th Advanced Summer School in Regional Science. An introduction to GIS using ArcGIS. Outline. First Day Introduction to GIS using ArcGIS Training with ArcGIS Overview and more advanced directions Training with ArcGIS Second Day GIS topics with ArcGIS: Raster and other data

lionel
Télécharger la présentation

19 th Advanced Summer School in Regional Science

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 19th Advanced Summer School in Regional Science An introduction to GIS using ArcGIS

  2. Outline • First Day • Introduction to GIS using ArcGIS • Training with ArcGIS • Overview and more advanced directions • Training with ArcGIS • Second Day • GIS topics with ArcGIS: Raster and other data • Training with ArcGIS • Overview and advanced data manipulation • Training with ArcGIS

  3. Early (1507) GIS Martin Waldseemüller Map

  4. GIS Programs • Is GIS a map? Is a map GIS? • Collect, organize and relate spatial and non-spatial data • Measure and calculate variables in a ‘spatially sensible’ fashion • Make inferences and test hypotheses about relationships that might have spatial structure, and about the spatial structure itself • Map can be viewed as a limited GIS • GIS is more than mapping – visual display of spatial information • Mapping does not necessarily permit measurement/calculation • Mapping rarely ventures into inference or hypothesis testing • Complete GIS implemented using computer programs • Combined graphics editing, database, statistical analysis • This course is focused on use of ArcGIS • There are many other programs worth exploring

  5. There is a “free” way • http://www.freegis.org

  6. Google Earth • Particularly useful for data display

  7. ArcGIS • ArcGIS is a suite of programs for working with spatial data • Three core “workhorse” programs • ArcCatalog • ArcMap • ArcToolbox • Three useful extras • ArcReader • ArcScene • ArcGlobe • ArcGIS itself comes in 3 levels: view, editor and info

  8. ArcCatalog • View folder contents • Connect to and navigate drives/folders • Launch other ArcGIS applications

  9. ArcCatalog • Preview GIS data • Examine ‘Metadata’ • Search and preview online data • Load data layers into ArcMap

  10. ArcMap • The central workspace for analysis an display of geographic data • Table of Contents • Tools • Map

  11. ArcMap • Layers • ArcMap and all advanced GIS programs adopt ‘layers’ for managing data display • Layers display can depend on scale • Layers can be switched on or off • Layers can be moved up or down • Layers can be of any data type

  12. ArcToolbox • Launched from ArcCatalog using red toolbox • Provides data and file utilities • Conversion • Projection • Analysis

  13. ArcToolbox • For simple projects these tools are often not required • For large projects with many layers using data from many sources, they can be very useful • Essential for managing projections and coordinate systems • Raster combinations, clipping • Conversions

  14. Working with spatial data • Each component of ArcGIS is designed to facilitate the use and analysis of spatial data • Structure of spatial data • We have choice of which type to use Spatial Data Vector Data Raster Data

  15. Data Types: Vector • Vector data ideal for representation of discrete, discontinuous data • Location of a city or structure • Location of a roadway or river • Political boundaries • These examples correspond to the three general types of vector data

  16. Data Types: Vector • Vector • Points • Lines • Polygons

  17. Data Types: Raster • Raster represents spatial data as square array of numbers • Each element of array associated with a pixel • Each pixel has a location – spatial structure • Value of array element represents data at that location • Rasters are natural for representing certain types of data • Elevation • Slope • Temperature • Other continuous variables • Rasters can be used for representing some discontinuous data as well • Transport costs • Land Use

  18. Data Types: Raster • Rasters provide direct representation of value, not shape • Represent continuous variables or data over space • Patterns of values can represent shape • Land forms and other structures emerge via patterns

  19. Data Files • Vector data and raster data require different file formats • In ArcGIS, vector data are mostly stored in two formats • Shapefiles (older format – wide compatibility) • GeoDatabase (newer format – more information) • What is the structure of a “shapefile”?

  20. Shapefiles • A group of files having the same prefix but varying file extensions • Required: • .shp - the file that stores the feature geometry. Required. • .shx - the file that stores the index of the feature geometry. Required. • .dbf - the dBASE file that stores the attribute information of features. Required.

  21. Shapefiles • A group of files having the same prefix but varying file extensions • Optional: • .sbn and .sbx - the files that store the spatial index of the features. • .prj - the file that stores the coordinate system and projection information • .xml - metadata for using shapefiles on the Internet. • .fbn and .fbx – read-ony indexes • .ain and .aih - active field indexes

  22. Shapefiles • Viewed in Windows Explorer • Viewed in ArcCatalog

  23. Shapefiles • Components of a shapefile are called “features” • Each feature may have one or more “attributes” • Feature attributes are recorded in dbf file • Shapefiles can be created within ArcCatalog • Right click on folder, choose New..Shapefile • Shapefiles do not store “topological” information • Polygons that must share boundaries • Line segments that must be connected • No automatic way to check if these have been disturbed or incorrectly entered

  24. GeoDatabase • GeoDatabase provides an extended format for vector data • Microsoft Access mdb format • 28 tables • GDB_AnnoSymbols to • GDB_ValidRules • More type checking • More checking of topology • Conversion between formats is available in ArcToolbox

  25. Structure of a GeoDatabase • Standard information • Feature Data • Info about each field • Additional information • Topological information • Data validation

  26. Raster Files • Files that include geographic location • ESRI Grid • Geo-TIFF • BIL • Files that present raster data but lack location • jpg • TIFF • Many others

  27. ArcCatalog Test Drive • Preview Data • View MetaData • Create New Files • Launch Toolbox • Launch ArcMap • Add Layers • Connect to Internet • Feature Servers • Map Servers       

  28. ArcToolbox Test Drive • Projection • Conversion • Indexing   

  29. ArcMap Basics • Adding Map Layers • Data Frame(s) • Frame Properties and Layer Properties • Features and Attributes    

  30. ArcMap Basics • Handling Layers • Symbology • Transparency • View at Map Scale    

  31. ArcMap Basics • Selecting Features • Controlling selection layers • Creating new layer from selection • Queries • Basic information • Attribute queries • Spatial queries • Calculating New Attributes • Exporting Data    

  32. ArcMap Basics • Adding Data Frames • Working with Layout View • Scales, Titles and Legends   

  33. ArcMap Intermediate: Data • Joining Data • One to one • One to many • Relating Data • Creating Point Shapefile from Data • Editing Data • Creating • Merging • Modifying

More Related