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Spatial Data: Elements, Levels and Types. Spatial Data: What GIS Uses Bigfoot Sightings: Spatial Data.

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Presentation on theme: "Spatial Data: Elements, Levels and Types. Spatial Data: What GIS Uses Bigfoot Sightings: Spatial Data."— Presentation transcript:

1 Spatial Data: Elements, Levels and Types

2 Spatial Data: What GIS Uses Bigfoot Sightings: Spatial Data

3 A GIS Provides the Ability to Analyze Disparate Data Sets Based on Location

4 Spatial and Attribute Data § Spatial data (where) l specifies location § Attribute data (what) l specifies what is at that location l stored in a database table § A GIS will link spatial and attribute data for display or analysis

5 4 Types of Phenomena Spatial Elements

6 1 3 2 4 Points §Points occur at one location in space. §Examples include houses, trees etc. §Discrete or fixed: Occupies one space at any time. §Moving: Examples include, cars, fish, deer §They have no spatial dimension.

7 Lines §Occupy a single dimension. §Examples include: roads, boundaries, and networks. §Do not have a width, but length can be measured.

8 2 3 1 Area §2-dimensional objects §Length and width can be measured §Surfaces, which include two types: §Discrete, has a definite boundary ex: towns §Continuous, has a changing boundary ex: meandering river

9 Volume §3-dimensional. §Examples include the volume of water in a lake, air masses. §Continuous data includes: elevation, rainfall, ocean salinity §Moving data includes: air masses, animal herds, schools of fish

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11 GIS Attempts to Describe All Features in Geometric Terms. §Points: surveyed locations, new construction, community resources §Lines: roads, transit routes §Areas: parcel maps, zip codes, census tracts

12 Data Types - 4 Types §nominal no inherent ordering land use types, county names yes or no data § ordinal inherent order road class; stream class hierarchy can be compared §interval known distance between values no natural zero can be compared § ratio natural zero ratios make sense (e.g. twice as much) income, age, rainfall

13 Data Types

14 GIS Links Spatial Data with Attribute Data for a Feature on a Map The information is stored as ‘attributes’ of the graphically represented feature. Example: A line that denotes a road shows its location. An attribute table stores all relevant information about this feature, which can be queried and displayed in a format based on the user’s needs Roads Map 1 4 32 5 6 Feature List Attribute Table

15 There are Two Ways to Acquire Spatial Data to Put Into a GIS 1. You purchase, or are given an existing data set 2. You go out and collect the data yourself

16 Major GIS Data Sources §Maps §Drawings (sketch or engineering) §Aerial (or other) Photographs §Satellite Imagery/Digital Ortho Photography §CAD data bases §Government & commercial spatial (GIS) data bases §Government & commercial attribute data bases §Paper records and documents

17 Where do we get the data? §Purchase the data already processed and ready to use. §Purchase the data and then complete the processing. §Get original data in office or lab. §Get original data in the field.

18 Existing Data §Purchase satellite images/ aerial photography already processed §Find public domain sources of images. Or share costs with data partners. §Purchase or download data and process in- house.

19 Existing Data §We may purchase or share an attribute data base (Excel spreadsheet, or Access database). §Must have a spatial component. §Sometimes we must “clean” the data.

20 Data Collection §Compile data directly from air-photos. §Digitize from existing paper maps §Scan from existing maps §Field data collection. Hand-held, mobile and airborne GPS (Global Positioning Systems).

21 Creating your own data Manual Digitizing Raster Scanning Most GIS users still must create their own data or need to update it

22 Pre-processing and Conversion: usually required! §Maps and Drawings l digitizing, or l scanning §Aerial Photographs l photogrametry/photo interpretation to extract features l digitizing or scanning to convert to digital §Satellite Imagery/ Digital Orthophotography l rectification and DEM (digital elevation model) §CAD Data Bases l translator software (pre-existing or custom-written) needed to convert to required GIS format §GIS Data Bases l conversion between proprietary standards (ARC/INFO, Intergraph, GDS, etc.) l Spatial Data Transfer Standard §Attribute Databases l geocoding if micro data l conversion between geographic units §Records and Documents l OCR (optical character recognition) scanning l keyboarding l then, same as attribute data bases

23 Representation of space elements... Human Perception Computer Perception Spatial DataBase A1 A3 P6 P2 P4 P9 P11 A2 A4 A6 A5 A11 A13 S1 A7 S2 S3 S4 S6 P1 P3 P12 S5 P8 P10 A8 A12 Arc-ID(X,Y) 1(a,b),..., (a,b) 2(c,d),..., (e,f) 3(g,h),..., (g,h) 4(e,f),..., (g,h)... Arc-IDNœud_DNœud_F 111 225 333 454... P5 P7


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