Multi-objective optimization to the transportation problem considering non-linear fuzzy membership functions

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Abstract

Considering the uncertainty of transporting goods from numerous origins to diverse destinations is a critical task for the decision-maker (DM). The ultimate goal of the DM is to make the right decisions that optimize the profit or loss of the organization under the vagueness of the uncontrollable effects. In this paper, mathematical models are proposed using fuzzy non-linear membership functions for the transportation problem considering the parameters’ uncertainty that can help the DM to optimize the multi-objective transportation problems (MOTP) and to achieve the desired goals by choosing a confidence level of the uncertain parameters. Based on DM’s selection of the confidence level, a compromise solution of the uncertain multi-objective transportation (UMOTP) is obtained along with the satisfaction level in percent for the DM. Two non-linear fuzzy membership functions are considered: the exponential and the hyperbolic functions. Using both membership functions, the sensitivity analysis was implemented by considering different confidence levels. According to the experimental results, the hyperbolic membership function gives 100% DM’s satisfaction in many instances. Moreover, it shows stability against the exponential and linear functions.

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Miah, M. M., Alarjani, A., Rashid, A., Khan, A. R., Uddin, M. S., & Attia, E. A. (2023). Multi-objective optimization to the transportation problem considering non-linear fuzzy membership functions. AIMS Mathematics, 8(5), 10397–10419. https://doi.org/10.3934/math.2023527

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