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Performance Evaluation of High Speed Data Networks with Different Transmission Modes

by Anu Chaudhary
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 22 - Number 1
Year of Publication: 2011
Authors: Anu Chaudhary
10.5120/2549-3493

Anu Chaudhary . Performance Evaluation of High Speed Data Networks with Different Transmission Modes. International Journal of Computer Applications. 22, 1 ( May 2011), 11-16. DOI=10.5120/2549-3493

@article{ 10.5120/2549-3493,
author = { Anu Chaudhary },
title = { Performance Evaluation of High Speed Data Networks with Different Transmission Modes },
journal = { International Journal of Computer Applications },
issue_date = { May 2011 },
volume = { 22 },
number = { 1 },
month = { May },
year = { 2011 },
issn = { 0975-8887 },
pages = { 11-16 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume22/number1/2549-3493/ },
doi = { 10.5120/2549-3493 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T20:08:16.440483+05:30
%A Anu Chaudhary
%T Performance Evaluation of High Speed Data Networks with Different Transmission Modes
%J International Journal of Computer Applications
%@ 0975-8887
%V 22
%N 1
%P 11-16
%D 2011
%I Foundation of Computer Science (FCS), NY, USA
Abstract

In this paper, a discrete-time single server model is considered in which the server functions can be interrupted and serves on dual mode operating strategy. After a server interruption, the server can either continue the transmission of the message or can completely retransmit the message. These modes are called Continue After Interruption (CAI) mode and Repeat After Interruption (RAI) mode respectively. Two types of traffic are considered (i) multimedia data traffic server operates on Continuous After Interrupt (CAI) mode and (ii) normal data traffic mode server is at Retransmit after Interrupt (RAI) mode. First, we give some general results on a GI-1-1 queue. Next we derive expression for the probability generating function of system contents and cell delays. Some performance measures such as mean delays have been derived in both types of server modes.

References
  1. Doshi B.T.,“Queueing system with vacations-a survey”, Queueing System(1) pp 29-66,1986.
  2. Takagi H.A.,“A survey of queueing analysis of polling models”, In Proceedings of the Third IFIP International Conference on Data Communication systems and their Performance, Rio de Janeiro, Brazil pp 22-25, June 1987.
  3. Coury S, Harrison PG, “Waiting time distribution in a class of discrete-time cyclic service multi-queue systems”, Performance Evaluation (29) pp 223-43, 1997.
  4. Van der Duyn Schouten FA, Vanneste SG, “Maintenance optimization of a production system with buffer capacity”, European Journal of Operation Research pp 232-338, 1995.
  5. Altiok T. “Queueing modeling of a single processor with failures”, Performance Evaluation pp 93-102, 1988/89.
  6. Laevens K, Bruneel H, “Delay analyses for discrete-time queueing systems with multiple randomly interrupted servers”, European Journal of Operational Research (85) pp 161-77, 1995.
  7. Yang OWW, Mark JW, “Performance analysis of integrated services on a single server system”, Performance Evaluation (11) pp 79-92, 1990.
  8. Hsu J., “Buffer behavior in computer communication system”, IEEE transactions on Communications (22) pp 1940-41, 1974.
  9. Bruneel H.A, “A general model for the behavior of infinite buffers with periodic service opportunities”, European Journal of Operation Research (16), pp 98-106, 1984.
  10. Li-Yong, Dong-Feng, Hong-Wei, “The Analysis of the MAC Protocol of Two-Class Priority Station Polling System under Mixed Services Policy of Exhaustive and Two-Times Gated Services”, IEEE Computer Society, Second International conference on Networks Security, Wireless Communications and Trusted Computing, pp 344-347, 2010.
  11. Sikdar, B., “Queueing analysis of polled service classes in the IEEE 802.16 MAC protocol”, IEEE Transactions on Wireless Communications (8), pp 57-67, 2009.
  12. Moon Ho Lee, Alexander Dudin, Valentina Klimenok, “Mathematical analysis of the multi-server queueing model for dynamic channel reservation in wireless networks”, IEEE Communications Letters (10), pp 855-857, 2006.
  13. Gunaseelan, Nirmal, Lingjia Liu Chamberland, Gregory H. Huff “Performance analysis of wireless hybrid-ARQ systems with delay-sensitive Traffic”, IEEE Transactions on Communications (4), pp 1262-1272,2010.
  14. Rung-HungGau,Kuan-MeiChen, “Predictive multicast polling for wireles networks with multipacket reception and queuing”, IEEE Transactions on Mobile Computing (5), pp 725-737,2006.
  15. Moon Ho Lee, Alexander Dudin, Valentina Klimenok, Chang Joa Kim, “Multi-Server Queueing Model with Broadcasting Service, IEEE Communications Letters (11), pp 546-548, 2007.
Index Terms

Computer Science
Information Sciences

Keywords

Discrete-time queueing model mean packet delays server interruption Continue After Interruption (CAI) mode Repeat After Interruption (RAI) mode.

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