Defines a fuzzy membership function where the larger input values have membership closer to 1. The function is defined by a user-specified midpoint (which is assigned a membership of 0.5) with a defined spread.
The tool that uses the FuzzyLarge object: FuzzyMembership.
The equation for the fuzzy Large function is:
The inputs to the equation are f1, the spread, and f2, the midpoint. Increasing the spread causes the fuzzy membership curve to become steeper.
The Large function is useful when the large input values have a higher membership.
The input values can be either integer or floating point positive values.
The user-defined value with a fuzzy membership of 0.5.
The default is the midpoint of the range of values of the input raster.
Defines the spread of the Large function. The spread generally ranges from 1 to 10, with the larger the value results in a steeper distribution from the midpoint.
The user-defined value defining the midpoint for the membership function.
Defines the spread of the membership function. The larger the value results in a steeper distribution from the midpoint.
Demonstrates how to create a FuzzyLarge class and use it in the FuzzyMembership tool within the Python window.
import arcpy from arcpy.sa import * from arcpy import env env.workspace = "c:/sapyexamples/data" outFzyMember = FuzzyMembership("as_std", FuzzyLarge(12, 5)) outFzyMember.save("c:/sapyexamples/fzymemb")
Performs a FuzzyMembership using the FuzzyLarge class.
# Name: FuzzyLarge_Ex_02.py # Description: Scales input raster data into values ranging from zero to one # indicating the strength of a membership in a set. # Requirements: Spatial Analyst Extension # Import system modules import arcpy from arcpy import env from arcpy.sa import * # Set environment settings env.workspace = "C:/sapyexamples/data" # Set local variables inRaster = "as_std" # Create the FuzzyLarge algorithm object midpoint = 15 spread = 5 myFuzzyAlgorithm = FuzzyLarge(midpoint, spread) # Check out the ArcGIS Spatial Analyst extension license arcpy.CheckOutExtension("Spatial") # Execute FuzzyMembership outFuzzyMember = FuzzyMembership(inRaster, myFuzzyAlgorithm) # Save the output outFuzzyMember.save("c:/sapyexamples/fzylarge")