Python/fuzzy_logic/fuzzy_operations.py

"""README, Author - Jigyasa Gandhi(mailto:jigsgandhi97@gmail.com)
Requirements:
  - scikit-fuzzy
  - numpy
  - matplotlib
Python:
  - 3.5
"""
import numpy as np
import skfuzzy as fuzz


if __name__ == "__main__":
    # Create universe of discourse in python using linspace ()
    X = np.linspace(start=0, stop=75, num=75, endpoint=True, retstep=False)

    # Create two fuzzy sets by defining any membership function (trapmf(), gbellmf(),gaussmf(), etc).
    abc1 = [0, 25, 50]
    abc2 = [25, 50, 75]
    young = fuzz.membership.trimf(X, abc1)
    middle_aged = fuzz.membership.trimf(X, abc2)

    # Compute the different operations using inbuilt functions.
    one = np.ones(75)
    zero = np.zeros((75,))
    # 1. Union = max(µA(x), µB(x))
    union = fuzz.fuzzy_or(X, young, X, middle_aged)[1]
    # 2. Intersection = min(µA(x), µB(x))
    intersection = fuzz.fuzzy_and(X, young, X, middle_aged)[1]
    # 3. Complement (A) = (1- min(µA(x))
    complement_a = fuzz.fuzzy_not(young)
    # 4. Difference (A/B) = min(µA(x),(1- µB(x)))
    difference = fuzz.fuzzy_and(X, young, X, fuzz.fuzzy_not(middle_aged)[1])[1]
    # 5. Algebraic Sum = [µA(x) + µB(x) – (µA(x) * µB(x))]
    alg_sum = young + middle_aged - (young * middle_aged)
    # 6. Algebraic Product = (µA(x) * µB(x))
    alg_product = young * middle_aged
    # 7. Bounded Sum = min[1,(µA(x), µB(x))]
    bdd_sum = fuzz.fuzzy_and(X, one, X, young + middle_aged)[1]
    # 8. Bounded difference = min[0,(µA(x), µB(x))]
    bdd_difference = fuzz.fuzzy_or(X, zero, X, young - middle_aged)[1]

    # max-min composition
    # max-product composition

    # Plot each set A, set B and each operation result using plot() and subplot().
    import matplotlib.pyplot as plt

    plt.figure()

    plt.subplot(4, 3, 1)
    plt.plot(X, young)
    plt.title("Young")
    plt.grid(True)

    plt.subplot(4, 3, 2)
    plt.plot(X, middle_aged)
    plt.title("Middle aged")
    plt.grid(True)

    plt.subplot(4, 3, 3)
    plt.plot(X, union)
    plt.title("union")
    plt.grid(True)

    plt.subplot(4, 3, 4)
    plt.plot(X, intersection)
    plt.title("intersection")
    plt.grid(True)

    plt.subplot(4, 3, 5)
    plt.plot(X, complement_a)
    plt.title("complement_a")
    plt.grid(True)

    plt.subplot(4, 3, 6)
    plt.plot(X, difference)
    plt.title("difference a/b")
    plt.grid(True)

    plt.subplot(4, 3, 7)
    plt.plot(X, alg_sum)
    plt.title("alg_sum")
    plt.grid(True)

    plt.subplot(4, 3, 8)
    plt.plot(X, alg_product)
    plt.title("alg_product")
    plt.grid(True)

    plt.subplot(4, 3, 9)
    plt.plot(X, bdd_sum)
    plt.title("bdd_sum")
    plt.grid(True)

    plt.subplot(4, 3, 10)
    plt.plot(X, bdd_difference)
    plt.title("bdd_difference")
    plt.grid(True)

    plt.subplots_adjust(hspace=0.5)
    plt.show()
-												fuzzy operations added (#1310)

* fuzzy operations added

* fuzzy inference system added

* unnecessary files removed

* requirements added

* Modified requirements for travis ci

* Modified requirements for travis ci

* Add scikit-fuzzy to requirements.txt

											
										
										
											2019-10-18 18:26:48 +00:00
+								"""README, Author - Jigyasa Gandhi(mailto:jigsgandhi97@gmail.com)
 								Requirements:
 								  - scikit-fuzzy
 								  - numpy
 								  - matplotlib
 								Python:
 								  - 3.5
 								"""
 								import numpy as np
 								import skfuzzy as fuzz
-												psf/black code formatting (#1421)

* added sol3.py for problem_20

* added sol4.py for problem_06

* ran `black .` on `\Python`

											
										
										
											2019-10-22 17:13:48 +00:00
-												Remove code with side effects from main (#1577)

* Remove code with side effects from main

When running tests withy pytest, some modules execute code in main scope
and open plot or browser windows.

Moves such code under `if __name__ == "__main__"`.

* fixup! Format Python code with psf/black push

											
										
										
											2019-11-17 18:38:48 +00:00
 								if __name__ == "__main__":
 								    # Create universe of discourse in python using linspace ()
 								    X = np.linspace(start=0, stop=75, num=75, endpoint=True, retstep=False)
 								    # Create two fuzzy sets by defining any membership function (trapmf(), gbellmf(),gaussmf(), etc).
 								    abc1 = [0, 25, 50]
 								    abc2 = [25, 50, 75]
 								    young = fuzz.membership.trimf(X, abc1)
 								    middle_aged = fuzz.membership.trimf(X, abc2)
 								    # Compute the different operations using inbuilt functions.
 								    one = np.ones(75)
 								    zero = np.zeros((75,))
 								    # 1. Union = max(µA(x), µB(x))
 								    union = fuzz.fuzzy_or(X, young, X, middle_aged)[1]
 								    # 2. Intersection = min(µA(x), µB(x))
 								    intersection = fuzz.fuzzy_and(X, young, X, middle_aged)[1]
 								    # 3. Complement (A) = (1- min(µA(x))
 								    complement_a = fuzz.fuzzy_not(young)
 								    # 4. Difference (A/B) = min(µA(x),(1- µB(x)))
 								    difference = fuzz.fuzzy_and(X, young, X, fuzz.fuzzy_not(middle_aged)[1])[1]
 								    # 5. Algebraic Sum = [µA(x) + µB(x) – (µA(x) * µB(x))]
 								    alg_sum = young + middle_aged - (young * middle_aged)
 								    # 6. Algebraic Product = (µA(x) * µB(x))
 								    alg_product = young * middle_aged
 								    # 7. Bounded Sum = min[1,(µA(x), µB(x))]
 								    bdd_sum = fuzz.fuzzy_and(X, one, X, young + middle_aged)[1]
 								    # 8. Bounded difference = min[0,(µA(x), µB(x))]
 								    bdd_difference = fuzz.fuzzy_or(X, zero, X, young - middle_aged)[1]
 								    # max-min composition
 								    # max-product composition
 								    # Plot each set A, set B and each operation result using plot() and subplot().
 								    import matplotlib.pyplot as plt
 								    plt.figure()
 								    plt.subplot(4, 3, 1)
 								    plt.plot(X, young)
 								    plt.title("Young")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 2)
 								    plt.plot(X, middle_aged)
 								    plt.title("Middle aged")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 3)
 								    plt.plot(X, union)
 								    plt.title("union")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 4)
 								    plt.plot(X, intersection)
 								    plt.title("intersection")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 5)
 								    plt.plot(X, complement_a)
 								    plt.title("complement_a")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 6)
 								    plt.plot(X, difference)
 								    plt.title("difference a/b")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 7)
 								    plt.plot(X, alg_sum)
 								    plt.title("alg_sum")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 8)
 								    plt.plot(X, alg_product)
 								    plt.title("alg_product")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 9)
 								    plt.plot(X, bdd_sum)
 								    plt.title("bdd_sum")
 								    plt.grid(True)
 								    plt.subplot(4, 3, 10)
 								    plt.plot(X, bdd_difference)
 								    plt.title("bdd_difference")
 								    plt.grid(True)
 								    plt.subplots_adjust(hspace=0.5)
 								    plt.show()