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pyDecision is a comprehensive Python library that encompasses a wide array of Multi-Criteria Decision Analysis (MCDA) methods. These powerful and versatile tools assist in making effective decisions by comparing alternatives based on multiple criteria, making it a valuable resource for researchers, analysts, and decision-makers.

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pyDecision

Introduction

A python library with the following MCDA methods: AHP (Analytic Hierarchy Process); Fuzzy AHP; PPF AHP (Proportional Picture Fuzzy AHP); ARAS (Additive Ratio ASsessment); Fuzzy ARAS; Borda; BWM (Best-Worst Method); Simplified BWM; Fuzzy BWM; CILOS (Criterion Impact LOSs); CoCoSo (COmbined COmpromise SOlution); CODAS (Combinative Distance-based Assessment); Copeland; COPRAS (Complex PRoportional Assessment); Fuzzy COPRAS; CRADIS (Compromise Ranking of Alternatives from Distance to Ideal Solution); CRITIC (CRiteria Importance Through Intercriteria Correlation); Fuzzy CRITIC; DEMATEL (DEcision MAking Trial and Evaluation Laboratory); Fuzzy DEMATEL; EDAS (Evaluation based on Distance from Average Solution); Fuzzy EDAS; Entropy; ELECTRE (I, I_s, I_v, II, III, IV, Tri-B); FUCOM (Full Consistency Method); Fuzzy FUCOM; GRA (Grey Relational Analysis); IDOCRIW (Integrated Determination of Objective CRIteria Weights); MABAC (Multi-Attributive Border Approximation area Comparison); MACBETH (Measuring Attractiveness by a Categorical Based Evaluation TecHnique); MAIRCA (Multi-Attributive Ideal-Real Comparative Analysis); MARA (Magnitude of the Area for the Ranking of Alternatives) ; MARCOS (Measurement of Alternatives and Ranking according to COmpromise Solution); MAUT (Multi-attribute Utility Theory); MEREC (MEthod based on the Removal Effects of Criteria); MOORA (Multi-Objective Optimization on the basis of Ratio Analysis); Fuzzy MOORA; MOOSRA (Multi-Objective Optimisation on the Basis of Simple Ratio Analysis); MULTIMOORA (Multi-Objective Optimization on the basis of Ratio Analisys Multiplicative Form); OCRA (Operational Competitiveness RAting); Fuzzy OCRA ; OPA (Ordinal Priority Approach); ORESTE (Organisation Rangement Et SynThesE de donnees relationnelles); PIV (Proximity Indexed Value); PROMETHEE (I, II, III, IV, V, VI, Gaia); EC PROMETHEE; RAFSI (Ranking of Alternatives through Functional mapping of criterion sub-intervals into a Single Interval); REGIME (REGIonal Multicriteria Elimination); ROC (Rank Ordered Centroid); ROV (Range Of Value); RRW (Rank Reciprocal Weighting); RSW (Rank Summed Weight); SAW (Simple Additive Weighting); SECA (Simultaneous Evaluation of Criteria and Alternatives); SMART (Simple Multi-Attribute Rating Technique); SPOTIS (Stable Preference Ordering Towards Ideal Solution); TODIM (TOmada de Decisao Interativa e Multicriterio - Interactive and Multicriteria Decision Making); PSI (Preference Selection Index); MPSI (Modified Preference Selection Index); TOPSIS (Technique for Order of Preference by Similarity to Ideal Solution); Fuzzy TOPSIS; VIKOR (VIseKriterijumska Optimizacija I Kompromisno Resenje); Fuzzy VIKOR; WINGS (Weighted Influence Non-linear Gauge System); WISP (Integrated Simple Weighted Sum Product); Simple WISP; WSM (Weighted Sum Model); Fuzzy WSM; WPM (Weighted Product Model); Fuzzy WPM; WASPAS (Weighted Aggregates Sum Product Assessment); Fuzzy WASPAS.

pyDecision offers an array of features, including the comparison of ranking alternatives and comparison of criterion weights from various methods. The library is also fully integrated with chatGPT, elevating result interpretation through AI. Additionally, pyDecision provides the flexibility to import results from custom methods or those not yet implemented in the library for swift comparison.

Citation

PEREIRA, V.; BASILIO, M.P.; SANTOS, C.H.T (2024). Enhancing Decision Analysis with a Large Language Model: pyDecision a Comprehensive Library of MCDA Methods in Python. arXiv. https://arxiv.org/abs/2404.06370

Usage

  1. Install
pip install pyDecision
  1. Import
# Import AHP
from pyDecision.algorithm import ahp_method

# Parameters
weight_derivation = 'geometric' # 'mean'; 'geometric' or 'max_eigen'

# Dataset
dataset = np.array([
  #g1     g2     g3     g4     g5     g6     g7                  
  [1  ,   1/3,   1/5,   1  ,   1/4,   1/2,   3  ],   #g1
  [3  ,   1  ,   1/2,   2  ,   1/3,   3  ,   3  ],   #g2
  [5  ,   2  ,   1  ,   4  ,   5  ,   6  ,   5  ],   #g3
  [1  ,   1/2,   1/4,   1  ,   1/4,   1  ,   2  ],   #g4
  [4  ,   3  ,   1/5,   4  ,   1  ,   3  ,   2  ],   #g5
  [2  ,   1/3,   1/6,   1  ,   1/3,   1  ,   1/3],   #g6
  [1/3,   1/3,   1/5,   1/2,   1/2,   3  ,   1  ]    #g7
])

# Call AHP Function
weights, rc = ahp_method(dataset, wd = weight_derivation)

# Weigths
for i in range(0, weights.shape[0]):
  print('w(g'+str(i+1)+'): ', round(weights[i], 3))
  
# Consistency Ratio
print('RC: ' + str(round(rc, 2)))
if (rc > 0.10):
  print('The solution is inconsistent, the pairwise comparisons must be reviewed')
else:
  print('The solution is consistent')
  1. Try it in Colab:
  1. Compare Methods:
  1. Advanced MCDA Methods:
  • 3MOAHP - Inconsistency Reduction Technique for AHP and Fuzzy-AHP Methods
  • pyMissingAHP - A Method to Infer AHP Missing Pairwise Comparisons
  • ELECTRE-Tree - Algorithm to infer the ELECTRE Tri-B method parameters
  • Ranking-Trees - Algorithm to infer the ELECTRE II, III, IV, and PROMETHEE I, II, III, IV method parameters

Acknowledgement

This section is dedicated to everyone who helped improve or correct the code. Thank you very much!

About

pyDecision is a comprehensive Python library that encompasses a wide array of Multi-Criteria Decision Analysis (MCDA) methods. These powerful and versatile tools assist in making effective decisions by comparing alternatives based on multiple criteria, making it a valuable resource for researchers, analysts, and decision-makers.

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