Swarm based Heuristic Optimization of the Recurrent Customers and Standby Server Under General Retrial Times

Swarm based Heuristic Optimization of the Recurrent Customers and Standby Server Under General Retrial Times

As queueing theory and modeling deal with queue length, waiting time and busy period, that all affect costs for an in institution and/or a busing corporation, the optimization plays a crucial role in such models. This paper focuses on the performance modeling and optimal configuration of a single-se...

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Bibliographic Details
Main Authors: N. Micheal Mathavavisakan, K. Indhira, Aliakbar Montazer Haghighi
Format: Article
Language:English
Published: Ram Arti Publishers 2025-08-01
Series:International Journal of Mathematical, Engineering and Management Sciences
Subjects:
recurrent customer
retrial queue
working vacation
heuristic optimization
Online Access:https://www.ijmems.in/cms/storage/app/public/uploads/volumes/45-IJMEMS-24-0480-10-4-931-964-2025.pdf
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Summary:As queueing theory and modeling deal with queue length, waiting time and busy period, that all affect costs for an in institution and/or a busing corporation, the optimization plays a crucial role in such models. This paper focuses on the performance modeling and optimal configuration of a single-server retrial queue with recurrent customers and a standby server, operating under Bernoulli working vacation conditions. The primary aim of the paper is to analyze the dynamics of this queueing model to achieve minimal operational costs while ensuring high performance. Using the supplementary variable technique (SVT), the probability generating functions (PGFs) and steady-state probabilities for the system's states, have been obtained enabling the development of comprehensive performance measures. These measures were rigorously validated through numerical examples. To complement the performance analysis, a cost function was formulated and optimized using advanced techniques, including the grey wolf optimizer (GWO), bat algorithm (BA), whale optimization algorithm (WOA), and cat swarm optimization (CSO). The results revealed that these algorithms successfully minimized operational costs while maintaining optimal system efficiency.
ISSN:2455-7749

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