Application of Automatic Queuing Models for Visiting Pilgrimage

Authors

  • Jagdish C. Purohit Research Scholar, Department of Statistics, H.N.B. Garhwal University, Srinagar Garhwal
  • O.K. Belwal Professor and HOD, Department of Statistics, H.N.B. Garhwal University, Srinagar Garhwal

DOI:

https://doi.org/10.53555/nnbma.v1i5.127

Abstract

Pilgrimage in the Indian is growing consistently and is an important attraction and destination for both foreign and domestic. Queuing for an explicit service according to the needs of venerator in the process of moving to a specific sequence .This can be done by a queue-based scheduler. This paper focuses on a system revered place and the average waiting time of venerator service is the revered place that different queuing algorithms. The purpose of this paper is to develop queuing system for organizing sacred place to build automated queue status analyzes and to service the venerator. New queuing design model test results and the average waiting time varies according to factors that can switch between scheduling algorithms. The main novelty of this work is the average waiting time modeling that gives the best average waiting time scheduling algorithm with the process of switching in addition, concerns have taken in processing.

References

B. Goluby, and R. Preston McAfeez (2011): “Firms, queues, and coffee breaks: A flow model of corporate activity with delays”, Springer-Verlag, vol.15, pp. 59-89, March 2011.

A. Mobarek (2007): “E-banking practices and venerator satisfaction- a case study in Botswana”, 20th Australasian Finance & Banking Conference, 2007.

O. Lustsik (2003): “E-banking in Estonia: Reasons and benefits of the rapid growth”, University of Tartu, Kroon and Economy, vol. 3, pp.24-36, 2003.

K. Sanjay, Bose (2002): “An introduction to queuing systems”, Springer, 2002

Lawrence W. Dowdy, Virgilio A.F. Almeida, Daniel A. Menasce (2004): "Performance by Design: Computer Capacity Planning By Example". p. 480

Schlechter, Kira (2009): "Hershey Medical Center to open redesigned emergency room" The Patriot-News.

Mayhew, Les; Smith, David (2006): Using queuing theory to analyse completion times in accident and emergency departments in the light of the Government 4-hour target. Cass Business School ISBN 978-1-905752-06-5 Retrieved 2008-05-20, December 2006.

Penttinen A.: Chapter 8 – Queuing Systems, Lecture Notes: S-38.145 - Introduction to Teletraffic Theory

Van Dijk, N. M. (1993): "On the arrival theorem for communication networks" Computer Networks and ISDN Systems 25 (10): 1135–2013. Doi:10.1016/0169-7552(93)90073-D. edit

Law, A. M. and Kelton, W.D. (1991): Simulation Modeling and Analysis, Second Edition, McGraw Hill, New York.

Ho, Y.C. and Cao, X.R. (1983): Optimization and perturbation analysis of queueing networks, J. Optim. Theory Appl., 40, 559–582.

Kelly, F. P. (1975): "Networks of Queues with Venerator of Different Types" Journal of Applied Probability 12 (3): 542–554. doi:10.2307/3212869. JSTOR 3212869.edit

Krivulin, N.K. (1994): A Recursive Equation Based Representation for the G/G/m Queue, Appl. Math. Lett., 7(3), 73–78.

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Published

31-05-2015

How to Cite

Purohit, J. C. ., & Belwal, O. . . (2015). Application of Automatic Queuing Models for Visiting Pilgrimage. Journal of Advance Research in Business, Management and Accounting (ISSN: 2456-3544), 1(5), 11-15. https://doi.org/10.53555/nnbma.v1i5.127