Presentation is loading. Please wait.

Presentation is loading. Please wait.

Advanced GIS Using ESRI ArcGIS 9.3 Spatial Analyst 2.

Published byPatricia Taylor Modified over 8 years ago

Similar presentations

Presentation on theme: "Advanced GIS Using ESRI ArcGIS 9.3 Spatial Analyst 2."— Presentation transcript:

1 Advanced GIS Using ESRI ArcGIS 9.3 Spatial Analyst 2

2 Spatial Analyst Cell Statistics A raster will be created depicting the spatial distribution of various statistic parameters calculated for 2 or more input rasters

3 Spatial Analyst Cell Statistics MAJORITY — Calculates the majority (value that occurs most often) of the inputs. MAXIMUM — Calculates the maximum (largest value) of the inputs. MEAN — Calculates the mean (average) of the inputs. MEDIAN — Calculates the median of the inputs. MINIMUM — Calculates the minimum (smallest value) of the inputs. MINORITY — Calculates the minority (value that occurs least often) of the inputs. RANGE — Calculates the range (difference between largest and smallest value) of the inputs. STD — Calculates the standard deviation of the inputs. SUM — Calculates the sum (total of all values) of the inputs. VARIETY — Calculates the variety (number of unique values) of the inputs.

4 Spatial Analyst Cell Statistics Example of result

5 Spatial Analyst Neighborhood Statistics Statistical parameters (the same as for the previous command) can be calculated for a specified neighborhood in a map (point or raster), creating a new raster

6 Spatial Analyst Neighborhood Statistics The neighborhood can be defined as a rectangle (rarely used), giving its size

7 Spatial Analyst Neighborhood Statistics The neighborhood can be defined as a rectangle (most used), giving its radius

8 Spatial Analyst Neighborhood Statistics The neighborhood can be defined as an annulus (similar to a circle with low- pass filter), giving its radiuses

9 Spatial Analyst Neighborhood Statistics The neighborhood can be defined as a wedge (useful in case of spatial trends and/or to highlight them), giving its radius and its starting and ending directions

10 Spatial Analyst Zonal Statistics Calculates a table of statistics (Mean, Majority, Maximum, Median, Minimum, Minority, Range, Standard Deviation, Sum or Variety) on values of a raster within the zones of another dataset. An histogram can be created too for one of the statistic parameters.

11 Spatial Analyst Zonal Statistics Result

12 Spatial Analyst Zonal Histogram Draws a chart of the frequency of valus in a raster map divided by zones defined by a shapefile (generally polygons)

13 Spatial Analyst Zonal Histogram Result

14 Spatial Analyst Reclassify Reclassifies a raster Classes are defined by thresholds, either manually typed or created with the classify option (identical to that used for symbology)

15 Spatial Analyst Reclassify Result

16 Spatial Analyst Convert Feature to Raster Creates a raster whose cell will contain a value/label derived from a field of a shapefile. It will cause loss of accuracy (frequently also errors)

17 Spatial Analyst Convert Feature to Raster Points

18 Spatial Analyst Convert Feature to Raster Points Result

19 Spatial Analyst Convert Feature to Raster Points Problems All the values are shifted to the center of their cell Value shifted

20 Spatial Analyst Convert Feature to Raster Points Problems Since each cell can contain only one vaue, when two source points are located in the same cell one of them will be lost Value lost

21 Spatial Analyst Convert Feature to Raster Lines

22 Spatial Analyst Convert Feature to Raster Lines Result

23 Spatial Analyst Convert Feature to Raster LInes Problems Reshaping/ simplification of lines “Widening” of lines

24 Spatial Analyst Convert Feature to Raster Points Problems Since each cell can contain only one vaue, when two or more source lines cross the same cell only the attribute of one of them will be preserved Value lost

25 Spatial Analyst Convert Feature to Raster Polygons

26 Spatial Analyst Convert Feature to Raster Polygons Result

27 Spatial Analyst Convert Feature to Raster Polygons Problems Reshaping/ simplification of polygons Very small polygons can be lost

28 Spatial Analyst Convert Raster to features Also the conversion of rasters to features will generate errors

29 Spatial Analyst Convert Raster to features to points A shapefile of points will be created containing one point for each (non empty) cell of the source raster

30 Spatial Analyst Convert Raster to features to points Result

31 Spatial Analyst Convert Raster to features to points

32 Spatial Analyst Convert Raster to features to points Result

33 Spatial Analyst Convert Raster to features to points

34 Spatial Analyst Convert Raster to features to points Result

35 Spatial Analyst Convert Raster to features to points Problems

36 Spatial Analyst Convert Raster to features to Lines A shapefile of Polylines will be created containing lines following the boundaries between cells containing different values

37 Spatial Analyst Convert Raster to features to points Result Completely unuseful

38 Spatial Analyst Convert Raster to features to Lines

39 Spatial Analyst Convert Raster to features to Lines Result

40 Spatial Analyst Convert Raster to features to Lines Result Problems

41 Spatial Analyst Convert Raster to features to lines A raster created from points generally is not accepted to generate polylines or polygons

42 Spatial Analyst Convert Raster to features to Polygons A shapefile of Polygons will be created following the boundaries between cells containing different values

43 Spatial Analyst Convert Raster to features to Polygons Result

44 Spatial Analyst Convert Raster to features to Polygons Result Problems

45 Spatial Analyst Convert Raster to features to Lines

46 Spatial Analyst Convert Raster to features to Lines Result Practically unuseful

47 Spatial Analyst Raster Calculator The Raster Calculator can perform mathematical calculations using operators and functions, set up selection queries, or type in Map Algebra syntax. Inputs can be raster datasets (or raster layers, coverages, shapefiles, tables, constants, and numbers).

48 Spatial Analyst Raster Calculator The most common functions are represented by icons on the right; further function are available cliching on the “expand” button (bottom right)

49 Spatial Analyst Raster Calculator Expressions can be simply typed or created using the selection fields and the function icons. Clicking the “Evaluate” button a new raster will be created containing the result For example, the spatial distribution of the average number of components of families can be avaluated simply dividing the raster containing the interpolated value of inhabitants per municipality by that created interpolating the number of families per municipality

50 Spatial Analyst Raster Calculator Result The resulting map is always a remporary raster called “Calculation” (if needed adding a number) that can be saved into the HD

51 Spatial Analyst Raster Calculator Result Extent and cell size of the resulting map are to be set in the “Options” sector of the Spatial Analyst Menu

Download ppt "Advanced GIS Using ESRI ArcGIS 9.3 Spatial Analyst 2."

Similar presentations

Using ESRI ArcGIS 9.3 Arc ToolBox 3 (Spatial Analyst)

Using ESRI ArcGIS 9.3 Arc ToolBox 3 (Spatial Analyst)
Lecture by Austin Troy © 2005 Lecture 13: Introduction to Raster Spatial Analysis ------Using GIS-- Introduction to GIS Lecture Notes by Austin Troy, University.

Lecture by Austin Troy © 2005 Lecture 13: Introduction to Raster Spatial Analysis Using GIS-- Introduction to GIS Lecture Notes by Austin Troy, University.
More Raster and Surface Analysis in Spatial Analyst

More Raster and Surface Analysis in Spatial Analyst
ANALYSIS 3 - RASTER What kinds of analysis can we do with GIS? 1.Measurements 2.Layer statistics 3.Queries 4.Buffering (vector); Proximity (raster) 5.Filtering.

ANALYSIS 3 - RASTER What kinds of analysis can we do with GIS? 1.Measurements 2.Layer statistics 3.Queries 4.Buffering (vector); Proximity (raster) 5.Filtering.
Spatial Analysis Longley et al., Ch 14,15. Transformations Buffering (Point, Line, Area) Point-in-polygon Polygon Overlay Spatial Interpolation –Theissen.

Spatial Analysis Longley et al., Ch 14,15. Transformations Buffering (Point, Line, Area) Point-in-polygon Polygon Overlay Spatial Interpolation –Theissen.
Map Analysis with Raster Datasets Francisco Olivera, Ph.D., P.E. Department of Civil Engineering Texas A&M University.

Map Analysis with Raster Datasets Francisco Olivera, Ph.D., P.E. Department of Civil Engineering Texas A&M University.
Map Analysis with Raster Datasets Francisco Olivera, Ph.D., P.E. Department of Civil Engineering Texas A&M University.

Map Analysis with Raster Datasets Francisco Olivera, Ph.D., P.E. Department of Civil Engineering Texas A&M University.
Raster Analysis Raster math Topography: Slope, aspect, contours Reclassify Raster / Vector Conversions Statistics: min, max, mean, std. dev. –Local, Neighborhood,

Raster Analysis Raster math Topography: Slope, aspect, contours Reclassify Raster / Vector Conversions Statistics: min, max, mean, std. dev. –Local, Neighborhood,
Spatial Analysis with Raster Datasets - 2 Francisco Olivera, Ph.D., P.E. Srikanth Koka Department of Civil Engineering Texas A&M University.

Spatial Analysis with Raster Datasets - 2 Francisco Olivera, Ph.D., P.E. Srikanth Koka Department of Civil Engineering Texas A&M University.
19 th Advanced Summer School in Regional Science Overview and more advanced directions with ArcGIS.

19 th Advanced Summer School in Regional Science Overview and more advanced directions with ArcGIS.
Marine GIS Applications using ArcGIS Global Classroom training course Marine GIS Applications using ArcGIS Global Classroom training course By T.Hemasundar.

Marine GIS Applications using ArcGIS Global Classroom training course Marine GIS Applications using ArcGIS Global Classroom training course By T.Hemasundar.
Let’s pretty it up!. Border around project area Everything else is hardly noticeable… but it’s there Big circles… and semi- transparent Color distinction.

Let’s pretty it up!. Border around project area Everything else is hardly noticeable… but it’s there Big circles… and semi- transparent Color distinction.
ESRM 250 & CFR 520: Introduction to GIS © Phil Hurvitz, 1999-2010 KEEP THIS TEXT BOX this slide includes some ESRI fonts. when you save this presentation,

ESRM 250 & CFR 520: Introduction to GIS © Phil Hurvitz, KEEP THIS TEXT BOX this slide includes some ESRI fonts. when you save this presentation,
Introduction to ArcGIS for Environmental Scientists Module 3 – GIS Analysis ArcGIS Toolbox.

Introduction to ArcGIS for Environmental Scientists Module 3 – GIS Analysis ArcGIS Toolbox.
Rebecca Boger Earth and Environmental Sciences Brooklyn College.

Rebecca Boger Earth and Environmental Sciences Brooklyn College.
Day 1-3. Variable Selection and GIS Processing 1.Discuss V mapping goals, targeted system (what is vulnerable?), framework 2.Choose data layers (criteria:

Day 1-3. Variable Selection and GIS Processing 1.Discuss V mapping goals, targeted system (what is vulnerable?), framework 2.Choose data layers (criteria:
Fundamentals of GIS Lecture Materials by Austin Troy except where noted © 2008 Lecture 14: More Raster and Surface Analysis in Spatial Analyst ------Using.

Fundamentals of GIS Lecture Materials by Austin Troy except where noted © 2008 Lecture 14: More Raster and Surface Analysis in Spatial Analyst Using.
Introduction to ArcGIS Spatial Analyst

Introduction to ArcGIS Spatial Analyst
Spatial Analysis – Raster data analysis Lecture 5-6.

Spatial Analysis – Raster data analysis Lecture 5-6.
Raster Data Analysis Chapter 11. Introduction  Regular grid  Value in each cell corresponds to characteristic  Operations on individual, group, or.

Raster Data Analysis Chapter 11. Introduction  Regular grid  Value in each cell corresponds to characteristic  Operations on individual, group, or.

Similar presentations

Ads by Google