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Cost Optimization in a GI/M/2/N Queue with Heterogeneous Servers, Working Vacations, and Impatient Customers via the Bat Algorithm

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Publicado en:Mathematics vol. 13, no. 21 (2025), p. 3559-3593
Autor principal: Guendouzi Abdelhak
Otros Autores: Bouzebda Salim
Publicado:
MDPI AG
Materias:
Customers
Customer services
Performance measurement
Mathematical analysis
Cost function
Feedback
Markov processes
Parameter sensitivity
Optimization
Formulas (mathematics)
Algorithms
Probability
Cost control
Queuing theory
Economic impact
Vacations
Heterogeneity
Business metrics
Acceso en línea:Citation/Abstract
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Resumen:This paper analyzes a finite-capacity <inline-formula>GI/M/2/N</inline-formula> queue with two heterogeneous servers operating under a multiple working-vacation policy, Bernoulli feedback, and customer impatience. Using the supplementary-variable technique in tandem with a tailored recursive scheme, we derive the stationary distributions of the system size as observed at pre-arrival instants and at arbitrary epochs. From these, we obtain explicit expressions for key performance metrics, including blocking probability, average reneging rate, mean queue length, mean sojourn time, throughput, and server utilizations. We then embed these metrics in an economic cost function and determine service-rate settings that minimize the total expected cost via the Bat Algorithm. Numerical experiments implemented in R validate the analysis and quantify the managerial impact of the vacation, feedback, and impatience parameters through sensitivity studies. The framework accommodates general renewal arrivals (<inline-formula>GI</inline-formula>), thereby extending classical (<inline-formula>M/M/2/N</inline-formula>) results to more realistic input processes while preserving computational tractability. Beyond methodological interest, the results yield actionable design guidance: (i) they separate Palm and time-stationary viewpoints cleanly under non-Poisson input, (ii) they retain heterogeneity throughout all formulas, and (iii) they provide a cost–optimization pipeline that can be deployed with routine numerical effort. Methodologically, we (i) characterize the generator of the augmented piecewise–deterministic Markov process and prove the existence/uniqueness of the stationary law on the finite state space, (ii) derive an explicit Palm–time conversion formula valid for non-Poisson input, (iii) show that the boundary-value recursion for the Laplace–Stieltjes transforms runs in linear time <inline-formula>O(N)</inline-formula> and is numerically stable, and (iv) provide influence-function (IPA) sensitivities of performance metrics with respect to <inline-formula>(μ1,μ2,ν,α,ϕ,β)</inline-formula>.
ISSN:2227-7390
DOI:10.3390/math13213559
Fuente:Engineering Database