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Admission control of bulk retrial feedback queue with K-optional vacations

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  • Shweta Upadhyaya

Abstract

In this study, we have made an attempt to provide a ready reckoner for solving many congestion problems of day-to-day life under techno-economic constraints which can be seen in many industrial organisations and computer and communication systems. This can be made possible by designing a control policy called Bernoulli Admission Control Policy (BACP) wherein one can control the arrival rate of the customers by allowing only some of them to enter the system. We have applied this policy to a bulk retrial queueing system with Bernoulli feedback under Bernoulli vacation schedule. For the proper utilisation of the server's resources, there is a provision for the server to go for a fixed number of optional vacations (say K) depending upon its choice. We have provided a numerical simulation for solving the problem dealing with local area networks (LAN) especially relating to mobile IP. The service time, repair time, vacation time and setup time are assumed to be generally distributed. We have used supplementary variable technique (SVT) and probability generating function (PGF) method to compute various queueing and reliability measures of interest.

Suggested Citation

  • Shweta Upadhyaya, 2015. "Admission control of bulk retrial feedback queue with K-optional vacations," International Journal of Mathematics in Operational Research, Inderscience Enterprises Ltd, vol. 7(2), pages 215-239.
    • Handle: RePEc:ids:ijmore:v:7:y:2015:i:2:p:215-239
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    Cited by:

    1. Madhu Jain & Sandeep Kaur & Parminder Singh, 2021. "Supplementary variable technique (SVT) for non-Markovian single server queue with service interruption (QSI)," Operational Research, Springer, vol. 21(4), pages 2203-2246, December.
    2. Shweta Upadhyaya, 2020. "Investigating a general service retrial queue with damaging and licensed units: an application in local area networks," OPSEARCH, Springer;Operational Research Society of India, vol. 57(3), pages 716-745, September.

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