American Journal of Operations Research

Volume 6, Issue 1 (January 2016)

ISSN Print: 2160-8830   ISSN Online: 2160-8849

Google-based Impact Factor: 1.72  Citations  

Using Harmonic Mean to Solve Multi-Objective Linear Programming Problems

HTML  XML Download Download as PDF (Size: 272KB)  PP. 25-30  
DOI: 10.4236/ajor.2016.61004    4,747 Downloads   6,898 Views  Citations

ABSTRACT

In this paper, we have suggested a new technique to transform multi-objective linear programming problem (MOLPP) to the single objective linear programming problem by using Harmonic mean for values of function and an algorithm is suggested for its solution, the computer application of algorithm has been demonstrated by solving some numerical examples. We have used some other techniques, such as (sen, arithmetic mean, median) to solve the same problems, the results in Table 3 indicate that the new technique in general is promising.

Share and Cite:

Sulaiman, N. and Mustafa, R. (2016) Using Harmonic Mean to Solve Multi-Objective Linear Programming Problems. American Journal of Operations Research, 6, 25-30. doi: 10.4236/ajor.2016.61004.

Cited by

[1] Characteristics of Multi-Objective Linear Programming Problem and Multi-Objective Linear Fractional Programming Problem Taking Maximum Value of Multi …
Applied Mathematics, 2024
[2] An average method for solving MOLPP using different kind of mean techniques in neutrosophic environment
AIP Conference Proceedings, 2023
[3] Shear crack control for a reinforced concrete T-beam using coupled stochastic-multi-objective optimization methods.
AIMS Materials Science, 2023
[4] On neutrosophic multi-level multi-objective linear programming problem with application in transportation problem
Journal of Intelligent & Fuzzy Systems, 2023
[5] A New Approach to Solving Linear Fractional Programming Problem with Rough Interval Coefficients in the Objective Function
Ibn AL-Haitham Journal For Pure …, 2022
[6] حل مشكلة البرمجة الخطية متعددة الأهداف بتقنية التحويل المتقدمة: Array‎
مجلة سامراء للعلوم الصرفة …, 2022
[7] Fuzzy harmonic mean technique for solving fully fuzzy multilevel multiobjective linear programming problems
Alexandria Engineering Journal, 2022
[8] Solution of Multi-Objective Linear Programming Problem by Advanced Transformation Technique
Samarra Journal of Pure and Applied Science, 2022
[9] SOLVING MULTI-OBJECTIVE LINEAR PROGRAMMING PROBLEMS BY STATISTICAL AVERAGING AND NEW STATISTICAL AVERAGING METHOD
International Journal of Mechanical …, 2022
[10] An Approach to Compute the Multi-Objective Programming Problem Under Triangular Fuzzy Numbers
Journal of Al-Qadisiyah for computer science and …, 2022
[11] A new Mean Deviation and Advanced Mean Deviation Techniques to Solve Multi-Objective Fractional Programming Problem Via Point-Slopes Formula
Pakistan Journal of Statistics and Operation …, 2021
[12] Advanced Transformation Technique to Solve Multi-Objective Optimization Problems
2021
[13] A New Transformation Technique to Solve Multi-Objective Linear Programming Problems
2021
[14] Comments on Modeling of Gauss Elimination Technique and AHA Simplex Algorithm for Multi-objective Linear Programming Problems by Sanjay Jain and …
Technology, 2020
[15] A NOVEL TECHNIQUE FOR SOLVING MULTI-OBJECTIVE LINEAR PROGRAMMING PROBLEMS
Mathematical Forum, 2020
[16] Solution of multi-objective linear programming problem using modified fourier elimination technique & AHA simplex algorithm
Arya Bhatta Journal of Mathematics and …, 2020
[17] Breaking Efficiency Barriers: Unleashing The Potential Of Perovskite Solar Cells For Next-Generation Photovoltaics
Journal of Science & Technology, 2020
[18] Multi-Objective Maintenance Optimization of Complex Systems Based on Redundancy-Cost Importance
2020
[19] Modeling of Gauss Elimination Technique and AHA Simplex Algorithm for Multi-objective Linear Programming Problems
2020
[20] Role of Examples and Interpretation of Results in Developing Multi-Objective Optimization Techniques
2020
[21] Maintenance optimization of reconfigurable systems based on multi-objective Birnbaum importance
2020
[22] Duality in Solving Multi-Objective Optimization (MOO) Problems
2019
[23] A New Ranking Function of Triangular Fuzzy Numbers for Solving Fuzzy Linear Programming Problems with Big-M Method
2019
[24] A New Ranking Function of Triangular Fuzzy Numbers for SolvingFuzzy Linear Programming Problems with Big–M Method
Electronics Science Technology and Application, 2019
[25] SOLVING OF BI-OBJECTIVE LINEAR FRACTIONAL PROGRAMMING PROBLEMS
2019
[26] Solving Fuzzy Linear Programming Problem using Weighted Sum and Comparisons with Ranking Function
International Journal of Scientific & Engineering Research, 2019
[27] Improved scalarizing techniques for solving multi-objective optimization problems
Am J Oper Res, 2019
[28] A Proposed New Average Method for Solving Multi-Objective Linear Programming Problem Using Various Kinds of Mean Techniques
2018
[29] Sen's multi-objective programming method and its comparison with other techniques
2018
[30] Statistical Averaging Method and New Statistical Averaging Method for Solving Extreme Point Multi–Objective Linear Programming Problem
2018
[31] Harmonic Mean Technique to Solve Multi Objective Fuzzy Linear Fractional Programming Problems
Global Journal of Pure and Applied Mathematics [GJPAM], 2017
[32] An approach for solving multi-objective linear fractional programming problem and it's comparison with other techniques
2017
[33] A new geometric average technique to solve multi-objective linear fractional programming problem and comparison with new arithmetic average technique
2017
[34] New Averaging Method For Risk Reduction In Coastal Region
2015
[35] Analysis of the Comments of Dr. Sanjay Jain and Adarsh Mangal on S. Nahar and Md. Abdul Alim (2017) A New Statistical Method to Solve Multiobjective …
[36] Evaluation of Averaging Techniques for Solving Multi-Objective Optimization (MOO) Problems

Journals Menu
Follow SCIRP
Contact us
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2025 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.