phuzzy

python representation of fuzzy numbers|data
specify uncertainty easily

Usage

To use phuzzy in a project:

phuzzy.Triangle

p = phuzzy.Triangle(alpha0=[1,4], alpha1=[2], number_of_alpha_levels=5)

p.df

   alpha     l    r
0   0.00  1.00  4.0
1   0.25  1.25  3.5
2   0.50  1.50  3.0
3   0.75  1.75  2.5
4   1.00  2.00  2.0

phuzzy.Trapezoid

p = phuzzy.Trapezoid(alpha0=[1,4], alpha1=[2,3], number_of_alpha_levels=5)

p.df

   alpha     l     r
0   0.00  1.00  4.00
1   0.25  1.25  3.75
2   0.50  1.50  3.50
3   0.75  1.75  3.25
4   1.00  2.00  3.00

phuzzy.TruncNorm

p = phuzzy.TruncNorm(alpha0=[1,3], number_of_alpha_levels=15, name="x")

p.df

       alpha         l         r
0   0.000000  1.000000  3.000000
1   0.071429  1.234184  2.765816
2   0.142857  1.342402  2.657598
3   0.214286  1.414912  2.585088
4   0.285714  1.472370  2.527630
5   0.357143  1.521661  2.478339
6   0.428571  1.566075  2.433925
7   0.500000  1.607529  2.392471
8   0.571429  1.647354  2.352646
9   0.642857  1.686656  2.313344
10  0.714286  1.726558  2.273442
11  0.785714  1.768503  2.231497
12  0.857143  1.814923  2.185077
13  0.928571  1.871675  2.128325
14  1.000000  2.000000  2.000000

phuzzy.TruncGenNorm

import phuzzy.mpl as phm
tgn = phm.TruncGenNorm(alpha0=[1, 4], alpha1=[2, 3], number_of_alpha_levels=15, beta=3.)
tgn.plot(show=False, filepath="truncgennorm.png", title=True)

phuzzy.Superellipse

import phuzzy.mpl as phm
se = phm.Superellipse(alpha0=[-1, 2.], alpha1=None, m=1.0, n=.5, number_of_alpha_levels=17)
se.plot(show=True, filepath="superellipse.png", title=True)

Addition

x = phuzzy.Trapezoid(alpha0=[0, 4], alpha1=[2, 3], number_of_alpha_levels=5)
y = phuzzy.TruncNorm(alpha0=[1, 3], number_of_alpha_levels=15, name="y")
z = x + y
z.name = "x+y"

Substaction

x = phuzzy.Trapezoid(alpha0=[0, 4], alpha1=[2, 3], number_of_alpha_levels=5)
y = phuzzy.TruncNorm(alpha0=[1, 3], number_of_alpha_levels=15, name="y")
z = x - y
z.name = "x-y"

Multiplication

x = phuzzy.Trapezoid(alpha0=[0, 4], alpha1=[2, 3], number_of_alpha_levels=5)
y = phuzzy.TruncNorm(alpha0=[1, 3], number_of_alpha_levels=15, name="y")
z = x * y
z.name = "x*y"

Division

x = phuzzy.Trapezoid(alpha0=[0, 4], alpha1=[2, 3], number_of_alpha_levels=5)
y = phuzzy.TruncNorm(alpha0=[1, 3], number_of_alpha_levels=15, name="y")
z = x / y
z.name = "x/y"

Exponentiation

x = phuzzy.Trapezoid(alpha0=[0, 4], alpha1=[2, 3], number_of_alpha_levels=5)
y = phuzzy.TruncNorm(alpha0=[1, 3], number_of_alpha_levels=15, name="y")
z = x ** y
z.name = "x^y"

cite

plain

Ingolf Lepenies (2018): phuzzy - a python package for fuzzy data.
Zenodo. http://doi.org/10.5281/zenodo.1219616

bibtex

@article{phuzzy,
title={phuzzy - a python package for fuzzy data},
DOI={10.5281/zenodo.1219616},
publisher={Zenodo},
author={Ingolf Lepenies},
year={2018}}

"I can live with doubt and uncertainty! I think it's much more exciting to live not knowing than to have answers which might be wrong."

Richard Feynman

phuzzy
Release 0.7.4

Release 0.7.4

0.7.4

0.7.3

0.6.4

0.6.2

0.6.0

0.5.14

0.5.13

0.5.4

0.5.1

0.5.0

Documentation

phuzzy

Usage

phuzzy.Triangle

phuzzy.Trapezoid

phuzzy.TruncNorm

phuzzy.TruncGenNorm

phuzzy.Superellipse

Addition

Substaction

Multiplication

Division

Exponentiation

cite

plain

bibtex

Stats

Development practices

Releases

Contributors

phuzzy Release 0.7.4

Release 0.7.4 Toggle Dropdown 0.7.4 0.7.3 0.6.4 0.6.2 0.6.0 0.5.14 0.5.13 0.5.4 0.5.1 0.5.0

Documentation

phuzzy

Usage

phuzzy.Triangle

phuzzy.Trapezoid

phuzzy.TruncNorm

phuzzy.TruncGenNorm

phuzzy.Superellipse

Addition

Substaction

Multiplication

Division

Exponentiation

cite

plain

bibtex

Stats

Development practices

Releases

Contributors

phuzzy
Release 0.7.4

Release 0.7.4

0.7.4

0.7.3

0.6.4

0.6.2

0.6.0

0.5.14

0.5.13

0.5.4

0.5.1

0.5.0