Neutrosophic Sets and Systems (Mar 2024)

Optimization of triangular neutrosophic based economic order quantity model under preservation technology and power demand with shortages

  • S. Loganayaki,
  • N. Rajeswari,
  • K. Kirupa,
  • S. Broumi

DOI
https://doi.org/10.5281/zenodo.10780566
Journal volume & issue
Vol. 65
pp. 11 – 31

Abstract

Read online

The primary objective of this article is to develop a mathematical model and determine the optimal policies of an inventory system involving power demand and controlled deterioration through preservation technology. This model comes in handy in a power demand-oriented inventory system with demand high at the end of the period. The model incorporates backlogged shortages and linear holding cost. The triangular neutrosophic numbers (TNN’s) are used for a nuanced representation of uncertain and imprecise inventory-related expenses. An efficient algorithm is constructed to minimize the total cost, and obtain optimal positive inventory time, optimum cycle time and minimum preservation technology investment. Few numerical examples are used to illustrate and validate the model. The comparative study conducted between models with and without preservation technology investment reveals a significant reduction in total inventory costs facilitated by the preservation facility. Also, the numerical results obtained in crisp and neutrosophic environment are compared. Specific previously obtained results are discussed to illustrate the theoretical findings. Sensitivity analysis of the model provides managerial insights replicating reality.

Keywords