Solving problem using TOPSIS – click on the below given link I have transferred all of the MCDM -MATLAB/OCTAVE code to GitHubĮntropy-TOPSIS MATLAB Code -Click here (No need of providing weights)Įntropy-EDAS MATLAB Code – Click here (No need of providing weights)ĪHP Consistency Check MATLAB/Octave Code- Click here Preference_Score_of_Weighted_Product_Model= num2str()Ģ)Weighted Aggregated Sum Product Assessment (WASPAS) Preference_Score_of_Weighted_Sum_Model = num2str() Watch the video to know how to run these codes -Click hereġ)Weighted Sum Model & Weighted Product Model Wcriteriatells us that the criteria is beneficial or non-beneficial.Create 3 Matrix namely X, W and Wcriteria.Copy paste these codes in the Script file.Learn All about Analytical Hierarchy ProcessĪnalytic Hierarchy Process (AHP) – Click hereĬonsistency in AHP (Analytical hierarchy Process)ĪHP consistency check using GNU octave software-Click hereįuzzy Analytic Hierarchy Process (FAHP)- Using Geometric Mean -Click hereįuzzy Analytic Hierarchy Process (FAHP) for weight calculation Using Extent Analysis method – Click here Graph Theory and Matrix Approach- Click hereĮntropy Method (for weight determination of criteria/Attributes)- Click hereĮvaluation Based on Distance from Average Solution (EDAS) – Click hereĭata Envelopment Analysis (DEA – CCR model)- Click hereĪnalytic Network Process (converting AHP to ANP) VIšekriterijumsko KOmpromisno Rangiranje (VIKOR)-Click here
Technique for Order Preference by Similarity to Ideal Solution (TOPSIS)-Click here WASPAS (Weighted Aggregated Sum Product Assessment)- Click here WSM & WPM (Weighted Sum Model & Weighted Product Model)-Click here Normalization/Standardization- Click here Multi Criteria Decision Making – Example (Mobile Selection)-Click here Watch my You Tube video’s on Multi Criteria Decision Making (MCDM)
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