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CS 128/ES 228 - Lecture 5a1 Working with Rasters.

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1 CS 128/ES 228 - Lecture 5a1 Working with Rasters

2 CS 128/ES 228 - Lecture 5a2 Spatial modeling in raster format  Basic entity is the cell  Region represented by a tiling of cells  Cell size = resolution  Attribute data linked to individual cells

3 CS 128/ES 228 - Lecture 5a3 Issue #1 - resolution Larger cells:  less precise spatial fix  line + boundary thickening  features too close overlap - less detail possible

4 CS 128/ES 228 - Lecture 5a4 Why not always use tiny cells?  Data inputs may have limited spatial resolution - pixel size for aerial, satellite photos - reliability of coordinate measurements  Size of data files  Speed of analysis

5 CS 128/ES 228 - Lecture 5a5 Issue #2 - determining cell values  Data inputs may already contain cell values: aerial, satellite photos  Cell values may be assigned: “pseudocolors”  Ultimately all cell values must be coded numerically

6 CS 128/ES 228 - Lecture 5a6 Image depth minimum = 1 bit B/W image or P/A data 8-bit image = 256 levels of gray (can be pseudo- colored) 24-bit image = true-color. Each primary color has separate layer

7 CS 128/ES 228 - Lecture 5a7 Determining cell values

8 CS 128/ES 228 - Lecture 5a8 Fuzzy set classification

9 CS 128/ES 228 - Lecture 5a9 Filtering raster data  Neighborhood averaging  Smoothes “holes” and transitions  Other techniques available Chang 2002, p. 203

10 CS 128/ES 228 - Lecture 5a10 Issue #3 - layers in raster format Each layer must be referenced in common coordinates Thematic data can be combined and revised (reclassified)

11 CS 128/ES 228 - Lecture 5a11 Analysis by raster overlay

12 CS 128/ES 228 - Lecture 5a12 Lack of spatial registration

13 CS 128/ES 228 - Lecture 5a13 Georeferencing raster images Spatial coordinates may be absent or purely map coordinates (i.e. inches from one corner) Control points: point features visible on both the image and the map Linear or nonlinear transformations “Rubber sheeting”

14 CS 128/ES 228 - Lecture 5a14 Issue #4 – mosaicking rasters http://www.microimages.com/featupd/v57/mosaic/

15 CS 128/ES 228 - Lecture 5a15 Raster mosaicking: adjusting color values Histogram matching: Computer compiles histogram of color (or gray) values in 1 tile 2 nd tile’s colors adjusted to match

16 CS 128/ES 228 - Lecture 5a16 Raster mosaicking: matching edges Matching edges: Edge feathering Cutline feathering

17 CS 128/ES 228 - Lecture 5a17 Raster data editing

18 CS 128/ES 228 - Lecture 5a18 Clip to rectangle...

19 CS 128/ES 228 - Lecture 5a19 … vs. clip to shapefile

20 CS 128/ES 228 - Lecture 5a20 Summary A huge amount of spatial data are available in raster format Rasters make excellent “base maps” Easy to layer but watch coordinate systems! Difficult/impossible to edit or reproject USGS Digital Raster Graphic (DRG) Quadrangle (1:24,000 scale - UTM Zone 17, NAD 27)

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