2. Introduction to GIS and ARCVIEW OC3030

3. What is a GIS? A means of storing, retrieving, sorting, and comparing spatial data to support some analytic process. + Information System Geographic Position

5. Geospatial Information and Services (GI&S) “Geospatial Information and Services is the collection, information extraction, storage, dissemination, and exploitation of geodetic, geomagnetic, imagery, gravimetric, aeronautical, topgraphic, hydrographic, littoral, cultural, and toponymic data accurately referenced to a precise location on the earth’s surface.” Joint Publication 2-03 -- Joint Tactics, Techniques and Procedures for Geospatial Information and Services Support to Joint Operations, 31 March 1999

6. GIS links graphical features (entities) to tabular data (attributes) What is a GIS? GEOGRAPHIC Information System

7. MODELLING AND STRUCTURING DATA (How we represent features or spatial elements)

8. Representing Spatial Elements RASTER VECTOR Real World

9. Representing Spatial Elements Raster Stores images as rows and columns of numbers with a Digital Value/Number (DN) for each cell. Units are usually represented as square grid cells that are uniform in size. Data is classified as “continuous” (such as in an image), or “thematic” (where each cell denotes a feature type. Numerous data formats (TIFF, GIF, ERDAS.img etc)

10. Vector Allows user to specify specific spatial locations and assumes that geographic space is continuous, not broken up into discrete grid squares We store features as sets of X,Y coordinate pairs. Representing Spatial Elements

11. Entity Representations Points - simplest element Lines (arcs) - set of connected points Polygons - set of connected lines We typically represent objects in space as three distinct spatial elements: We use these three spatial elements to represent real world features and attach locational information to them.

12. Vector Data Model A simple coordinate string with no inherent structure. It is the Topology (i.e., the geometrical relationships between features in a data file) that provides the structure. –Node (a special class of point). The endpoint of a line or the intersection of two or more lines. –Chain (line that starts and ends at a node). Can be either a single line segment or a string of line segments that have direction plus a left side and a right side. –Polygon. Completely bounded by one or more chains and can have both an inner and an outer. Relationships include intersections, adjacency, inside or outside, between, “hole” or “island” polygons.

13. Attributes In the raster data model, the cell value (Digital Number) is the attribute. Examples: brightness, landcover code, SST, etc. For vector data, attribute records are linked to point, line & polygon features. Can store multiple attributes per feature. Vector features are linked to attributes by a unique feature number.

14. Raster vs. Vector Raster Advantages The most common data format Easy to perform mathematical and overlay operations Satellite information is easily incorporated Better represents “continuous”- type data Vector Advantages Accurate positional information that is best for storing discrete thematic features (e.g., roads, shorelines, sea-bed features. Compact data storage requirements Can associate unlimited numbers of attributes with specific features

15. Raster vs. Vector Raster Disadvantages Huge data storage requirements for high resolution data. Depiction of features limited by grid cell size (i.e. by the resolution) Only one attribute (or data value) per cell Vector Disadvantages Poor at representing continuous type data; “fuzzy” boundaries need to be generalized. Complex data structures that lead to computational intensity. A number of vector formats => the need for conversion routines.

16. Geographical Entities What is it? Attributes Where is it? Geographical coordinates What is its relation to other entities? Topology

17. Data Assembly Data Storage Spatial Data Analysis and Manipulation Spatial Data Output GIS Functions

18. Data Analysis Operations on Entities Attributes: -Operation on attribute of single entity -Operation on attributes of multiple entities that overlap in space -Operations on attributes of linked entities (object orientation) -Operations on attributes of entities contained by other entities Distance/location operations -Operations to locate entities with respect to distance or location criteria -Operations to create buffer zones around entities Spatial Topology Operations

19. Spatial Analysis Overlay function creates new “layers” to solve spatial problems

20. SOME EXAMPLES AND APPLICATIONS

21. Naval Oceanographic Office Raster Examples LandSat Image (30m resolution) SPOT Image (10m resolution) Side Scan Sonar Image (1m resolution) Different types of imagery viewed at the same time

22. Naval Oceanographic Office Raster Examples AVHRR Image

23. Naval Oceanographic Office Vector Examples NIMA Wrecks and Obstructions

24. Naval Oceanographic Office Vector Examples Wave Models from NAVO N2

25. … user creates a query on a selected theme, such as MODAS in this case Building a Data Query

26. … user zooms to area of interest

27. Use unique value of the theme for display association

29. Helicopter Landing Zones HLZ sites

30. Flight Planning/Flythroughs

31. Facilities Management

32. CCM Analysis

33. OUR METOC LABS GIS SOFTWARE TOOL

34. What is ArcView? Premier or (predominant) commercial GIS. As an Microsoft is to Computer Operating Systems … ArcView is to GIS Other commercial systems abound … also some DoD, Government, University freeware

35. ArcView currently used in…. OC3030 – Oceanographic Computing and Data Display OC/MR 3520 – Remote Sensing OC3902 – Fundamentals of GI&S OC3266 – Operational Acoustic Forecasting

36. What is ArcView GIS? What is ArcView GIS? It is a desktop Geographic Information System – a data base that links information to location (i.e., the what to where). The ARCVIEW user interface consists of windows that present information in different ways. Rows of menus, buttons, and tools at the top of the main application window allow the user to view and perform analytical operations on the data in the database.

37. Menus, Buttons & Tools Menus, Buttons & Tools Located at the top of the main application window. Also known as the Graphical User Interface (GUI) Menu Bar Button Bar Tool Bar

38. ArcView Projects projects ArcView projects are used to organize and store a collection of associated documents that work together during an ArcView session. project file Project information is stored in a project file. (.apr) project window The project window displays the names of all project documents.

39. ArcView Documents Views Tables Charts Layouts Scripts At the start of an ArcView session, the main GIS window contains an untitled Project window. Used to add/manage documents in a project. Document Type Each project can have one or more documents of each type (e.g. tables)

40. Views themes)Display collections of geographic data files (themes), that cover the same geographic area Provides an interactive map display Contains a Table of Contents. Note: Each theme in the Table of Contents has a check box next to its name. If the box is checked, the theme is displayed. If it is not checked, the theme is not displayed. The user controls the theme displays – simply check or uncheck the box.

41. View Example Legend (Table of Contents) Map Display

42. Tables Display tabular information in a spreadsheet type format Formats data into records (rows) and fields (columns). Each record represents a single feature and each field a single attribute for that feature. Tables can be edited to add, change, or delete records and fields.

43. Table Example Table Example

44. Charts Provide a visual representation of a table Graphically summarize information in tables Allow you to interactively query tables ArcView supports area, bar, column, line, pie and x,y scatter charts.

45. Chart Example

46. Layouts Documents on which you can arrange views, tables, charts and images as graphic elements. Used to compile a product (map) for printing and exporting. Note: Cartographic map components such as neatlines, north arrows, scale bars and legends can be placed on layouts.

47. Layout Example

48. Scripts Used to customize almost any aspect of the standard ArcView interface Written using the Avenue application development language Note: Avenue code is written in a Script editor document. The script editor allows you to create, modify, compile, execute, and debug Avenue script.

49. ArcView Data Sources ArcView Data Sources Vector data (data that stores the location, shape and attributes of each feature) – Shapefiles (the ArcView format for storing location and attribute information for each feature). – ARC/INFO Coverages (in “coverage” format) – MapInfo Files ARC/INFO’s raster data format (called a Grid) Image Data Tabular (matrix) data

50. Vector Data A shapefile is the native ArcView format that is used for vector data Each shapefile is a collection of files –Spatial data (shape geometry).shp –Spatial data index.shx –Attribute data.dbf

51. Raster Data ArcView themes (known as image themes) can be created from image data (e.g., satellite images, aerial photographs, scanned documents). Image Themes do not have attribute tables. Can be manipulated by using the Image Legend editor. ArcView supported image types: - Erdas IMAGINE (with IMAGINE Image extension) - JPEG files (with JPEG extension) - National Image Transfer Files (with NITF extension for military users) - Hot Linking to GIF & MacPaint - Other image types (BMP, BSQ, BIL, & BIP, MrSID, Image Catelogs, Sun rasterfiles, TIFF, GeoTIFF, & TIFF/LZW compressed

52. Matrix Data* USGS DEM –Spatial Analyst or 3D Analyst Extensions NIMA DTED –Spatial Analyst or 3D Analyst Extensions * ArcView Import

53. Creating Hot Links Can be linked to: –An image –An Avenue script –A Word document –A video application –The Web

54. Hot Link Example

55. Referencing Views to the Real World Requires a map projection – a formula that converts positional data (lat., long.) on an ellipsoidal surface to (x,y) coordinates on a planar surface.

56. Map Projections Original data must be in decimal degrees to be projected Only the view of the data is changed, the source coordinates are unchanged Projection units can be specified Image and grid themes are unaffected by the projection properties specified for a view – they are assumed to be in the correct projection already. Always use the image/grid theme projection for the view!! When Working with a View :

57. ArcView Extensions Provide additional capabilities User interface changes to reflect the additional capabilities May be loaded and unloaded during a session and will load automatically when required. Include: ArcView Spatial Analyst (converts features themes to grid themes, contours, does cell-based analysis

58. ArcView Extensions ctd. ArcView Network Analyst (efficient route travelling, travel directions) ArcView 3-D Analyst (creates, analyses and displays surface data; supports the TIN data model, 3D shapes, interactive perspective viewing) ArcView Image Analysis (some ERDAS image processing functions)

59. ArcView Upgrades

60. Summary Examined GIS concepts. Looked at data types (raster/vector) and data sources Reviewed some examples Introduced to Lab GIS tool -- ArcView