
doi: 10.3390/math9192415
In this paper, models of unreliable multi-server retrial queues with delayed feedback are examined. The Bernoulli retrial is allowed upon the arrival of both primary (from outside) and feedback customers (from orbit), as well as the Bernoulli feedback that may occur after each service in this system. Servers can break down both during the service of customers and when they are idle. If a server breaks down during the service of a customer, then the interrupted customer, in accordance with the Bernoulli scheme, decides either to leave the system or join a common orbit of retrial and feedback customers. An approximate method, based on the space merging approach of three-dimensional Markov chains, is proposed for the calculation of the steady-state probabilities, as well as performance measures of the system. The results of the numerical experiments are demonstrated.
delayed feedback, calculation method, unreliable servers, QA1-939, retrial customers, finite and infinite orbits, Mathematics, multi-server queue, balking from orbit
delayed feedback, calculation method, unreliable servers, QA1-939, retrial customers, finite and infinite orbits, Mathematics, multi-server queue, balking from orbit
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