mathdatech/Python
1
0
Fork 0
mirror of https://github.com/TheAlgorithms/Python.git synced 2025-05-18 15:11:28 +00:00
Code Issues Packages Projects Releases Wiki Activity

Added Opertation for triangular fuzzy sets

Browse Source
This commit is contained in:
Shreya123714 2023-10-27 23:29:00 +05:30
parent 28302db941
commit bb8f7f716b
1 changed files with 138 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

138
fuzzy_logic/fuzzy_operations.py Normal file
View File

@ -0,0 +1,138 @@
import matplotlib.pyplot as plt
import numpy as np
class FuzzySet:
"""
A class for representing and manipulating triangular fuzzy sets.
Attributes:
name (str): The name or label of the fuzzy set.
a (float): The left boundary of the fuzzy set.
b (float): The peak (central) value of the fuzzy set.
c (float): The right boundary of the fuzzy set.
Methods:
membership(x): Calculate the membership value of an input 'x' in the fuzzy set.
union(other): Calculate the union of this fuzzy set with another fuzzy set.
intersection(other): Calculate the intersection of this fuzzy set with another fuzzy set.
complement(): Calculate the complement (negation) of this fuzzy set.
plot(): Plot the membership function of the fuzzy set.
"""
def __init__(self, name, a, b, c):
"""
Initializes a triangular fuzzy set with the given parameters.
Args:
name (str): The name or label of the fuzzy set.
a (float): The left boundary of the fuzzy set.
b (float): The peak (central) value of the fuzzy set.
c (float): The right boundary of the fuzzy set.
"""
self.name = name # Fuzzy set name
self.a = a # Left boundary
self.b = b # Peak value
self.c = c # Right boundary
def membership(self, x):
"""
Calculate the membership value of an input 'x' in the fuzzy set.
Args:
x (float): The input value for which the membership is calculated.
Returns:
float: The membership value of 'x' in the fuzzy set.
"""
if x <= self.a or x >= self.c:
return 0
elif self.a < x <= self.b:
return (x - self.a) / (self.b - self.a)
elif self.b < x < self.c:
return (self.c - x) / (self.c - self.b)
def union(self, other):
"""
Calculate the union of this fuzzy set with another fuzzy set.
Args:
other (FuzzySet): Another fuzzy set to union with.
Returns:
FuzzySet: A new fuzzy set representing the union.
"""
union_name = f"{self.name} {other.name}"
return FuzzySet(union_name, min(self.a, other.a), max(self.c, other.c), (self.b + other.b) / 2)
def intersection(self, other):
"""
Calculate the intersection of this fuzzy set with another fuzzy set.
Args:
other (FuzzySet): Another fuzzy set to intersect with.
Returns:
FuzzySet: A new fuzzy set representing the intersection.
"""
intersection_name = f"{self.name}{other.name}"
return FuzzySet(intersection_name, max(self.a, other.a), min(self.c, other.c), (self.b + other.b) / 2)
def complement(self):
"""
Calculate the complement (negation) of this fuzzy set.
Returns:
FuzzySet: A new fuzzy set representing the complement.
"""
complement_name = f"¬{self.name}"
return FuzzySet(complement_name, 1 - self.c, 1 - self.a, 1 - self.b)
def plot(self):
"""
Plot the membership function of the fuzzy set.
"""
x = np.linspace(0, 1, 1000)
y = [self.membership(xi) for xi in x]
plt.plot(x, y, label=self.name)
def __str__(self):
return f"{self.name}: [{self.a}, {self.b}, {self.c}]"
# Example usage:
if __name__ == "__main__":
A = FuzzySet("A", 0, 0.5, 1)
B = FuzzySet("B", 0.2, 0.7, 1)
A.plot()
B.plot()
plt.xlabel("x")
plt.ylabel("Membership")
plt.legend()
plt.show()
union_AB = A.union(B)
intersection_AB = A.intersection(B)
complement_A = A.complement()
union_AB.plot()
intersection_AB.plot()
complement_A.plot()
plt.xlabel("x")
plt.ylabel("Membership")
plt.legend()
plt.show()