Resequencing delay for a queueing system with multiple servers under a threshold-type scheduling

Iwao Sasase; Shinsaku Mori

doi:10.1109/infcom.1991.147529

Resequencing delay for a queueing system with multiple servers under a threshold-type scheduling

Iwao Sasase, Shinsaku Mori

Department of Information and Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

5 Citations (Scopus)

Abstract

The resequencing delay for a queuing system with multiple servers under threshold-type scheduling is analyzed. The general expressions for the average total delay, which is the sum of resequencing delay and queuing delay, are derived. The expressions are also applicable to the conventional M/M/n queuing system as the special case of zero-threshold policy. Next, the numerical calculation is carried out for a queuing system with three servers under a threshold-type schedule to consider the impact of the multiple thresholds on the average resequencing delay. It is found that the resequencing delay as well as the queuing delay for a queuing system with multiple servers of different service rates can be reduced under threshold-type scheduling by selecting the threshold values appropriately. Threshold-type scheduling is more effective in reducing the resequencing delay compared to the queuing delay, especially in the region of modest traffic intensity and as the difference in the service rates becomes larger.

Original language	English
Title of host publication	Networking in the 90s
Publisher	Publ by IEEE
Pages	391-399
Number of pages	9
ISBN (Print)	0879426942, 9780879426941
DOIs	https://doi.org/10.1109/infcom.1991.147529
Publication status	Published - 1991
Event	Proceedings of the 10th Annual Joint Conference of the IEEE and Communications Societies - IEEE INFOCOM '91 - Bal Harbour, FL, USA Duration: 1991 Apr 7 → 1991 Apr 11

Publication series

Name	Proceedings - IEEE INFOCOM
Volume	1
ISSN (Print)	0743-166X

Other

Other	Proceedings of the 10th Annual Joint Conference of the IEEE and Communications Societies - IEEE INFOCOM '91
City	Bal Harbour, FL, USA
Period	91/4/7 → 91/4/11

ASJC Scopus subject areas

Computer Science(all)
Electrical and Electronic Engineering

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10.1109/infcom.1991.147529

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Sasase, I & Mori, S 1991, Resequencing delay for a queueing system with multiple servers under a threshold-type scheduling. in Networking in the 90s. Proceedings - IEEE INFOCOM, vol. 1, Publ by IEEE, pp. 391-399, Proceedings of the 10th Annual Joint Conference of the IEEE and Communications Societies - IEEE INFOCOM '91, Bal Harbour, FL, USA, 91/4/7. https://doi.org/10.1109/infcom.1991.147529

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title = "Resequencing delay for a queueing system with multiple servers under a threshold-type scheduling",

abstract = "The resequencing delay for a queuing system with multiple servers under threshold-type scheduling is analyzed. The general expressions for the average total delay, which is the sum of resequencing delay and queuing delay, are derived. The expressions are also applicable to the conventional M/M/n queuing system as the special case of zero-threshold policy. Next, the numerical calculation is carried out for a queuing system with three servers under a threshold-type schedule to consider the impact of the multiple thresholds on the average resequencing delay. It is found that the resequencing delay as well as the queuing delay for a queuing system with multiple servers of different service rates can be reduced under threshold-type scheduling by selecting the threshold values appropriately. Threshold-type scheduling is more effective in reducing the resequencing delay compared to the queuing delay, especially in the region of modest traffic intensity and as the difference in the service rates becomes larger.",

author = "Iwao Sasase and Shinsaku Mori",

year = "1991",

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AU - Mori, Shinsaku

PY - 1991

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N2 - The resequencing delay for a queuing system with multiple servers under threshold-type scheduling is analyzed. The general expressions for the average total delay, which is the sum of resequencing delay and queuing delay, are derived. The expressions are also applicable to the conventional M/M/n queuing system as the special case of zero-threshold policy. Next, the numerical calculation is carried out for a queuing system with three servers under a threshold-type schedule to consider the impact of the multiple thresholds on the average resequencing delay. It is found that the resequencing delay as well as the queuing delay for a queuing system with multiple servers of different service rates can be reduced under threshold-type scheduling by selecting the threshold values appropriately. Threshold-type scheduling is more effective in reducing the resequencing delay compared to the queuing delay, especially in the region of modest traffic intensity and as the difference in the service rates becomes larger.

AB - The resequencing delay for a queuing system with multiple servers under threshold-type scheduling is analyzed. The general expressions for the average total delay, which is the sum of resequencing delay and queuing delay, are derived. The expressions are also applicable to the conventional M/M/n queuing system as the special case of zero-threshold policy. Next, the numerical calculation is carried out for a queuing system with three servers under a threshold-type schedule to consider the impact of the multiple thresholds on the average resequencing delay. It is found that the resequencing delay as well as the queuing delay for a queuing system with multiple servers of different service rates can be reduced under threshold-type scheduling by selecting the threshold values appropriately. Threshold-type scheduling is more effective in reducing the resequencing delay compared to the queuing delay, especially in the region of modest traffic intensity and as the difference in the service rates becomes larger.

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Resequencing delay for a queueing system with multiple servers under a threshold-type scheduling

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