On the Behavior of Multiserver Buffers with Geometric Service Times and Bursty Input Traffic(Fundamental Theories for Communications)
スポンサーリンク
概要
- 論文の詳細を見る
Discrete-time queueing models have been studied for many years because of their direct applicability in the performance evaluation of digital communication system and networks, where buffers are used to temporarily store information packets which cannot be transmitted instantaneously. In this paper, we investigate the behavior of a discrete-time multiserver buffer system with infinite buffer size. Packets arrive in the system according to a two-state correlated arrival process. The service times of the packets are assumed to be independent and identically distributed according to a geometric distribution. We present an analytical technique, based on the use of generating functions, for the analysis of the system. Explicit expressions are obtained for the mean values, the variances and the tail distributions of the system contents and the packet delay. The influence of the various model parameters on the behavior of the system is shown by means of some numerical examples.
- 社団法人電子情報通信学会の論文
- 2004-12-01
著者
-
Wittevrongel S
Smacs Research Group Department Of Telecommunications And Information Processing (telin) Ghent Unive
-
Wittevrongel Sabine
Smacs Research Group Department Of Telecommunications And Information Processing Ghent University
-
GAO Peixia
SMACS Research Group, Department of Telecommunications and Information Processing (TELIN), Ghent Uni
-
BRUNEEL Herwig
SMACS Research Group, Department of Telecommunications and Information Processing (TELIN), Ghent Uni
-
Gao Peixia
Smacs Research Group Department Of Telecommunications And Information Processing (telin) Ghent Unive
-
Bruneel H
Smacs Research Group Department Of Telecommunications And Information Processing (telin) Ghent Unive
関連論文
- Influence of the Timeslot Interchange Mechanism on the Buffer Behavior of an Integrated Switching Element(Switchin)
- On the Behavior of Multiserver Buffers with Geometric Service Times and Bursty Input Traffic(Fundamental Theories for Communications)