DocumentCode
3442035
Title
Comparison between a Proposed QoS Mathematical Model and other IP QoS Models
Author
Fgee, El-Bahlul ; Phillips, William J. ; Robertson, William
Author_Institution
Dept. of Comput. Eng., Acad. of Grad. Studies, Tripoli
fYear
2008
fDate
5-8 May 2008
Firstpage
595
Lastpage
599
Abstract
Significant challenges has been introduced for IP networks with the advent of new emerging applications, such as VOIP and E-commerce, that require delivering quality guarantees. However, IP networks were originally designed to support best effort delivery only. Three quality of service (QoS) models, IntServ, DiffServ and multiprotocol label switching (MPLS) have been standardized by the Internet engineering task force (IETF). Although these methods guarantee delivery, they have drawbacks such as complexity, restrictions of predefined classes and higher end-to-end delay. In this paper, a new QoS mathematical model has been proposed. This model is based on the principles of network calculus in which an incoming traffic flow is regulated by an arrival curve that upper bounds its rate. Then, this traffic flow is lower bounded and delayed by a service latency time at each node on its way to the destination node. This model is compared with other IP QoS models, IntServ and DiffServ. The worst case end-to-end delay is derived and illustrated by a numerical example .The proposed model has achieved the lowest end-to-end delay compared with others.
Keywords
DiffServ networks; IP networks; IntServ networks; multiprotocol label switching; quality of service; telecommunication traffic; DiffServ; IP QoS models; IP networks; IntServ; QoS mathematical model; VOIP; delivering quality guarantees; e-commerce; multiprotocol label switching; network calculus; quality of service models; traffic flow; worst case end-to-end delay; Delay; Diffserv networks; IP networks; Internet telephony; Mathematical model; Multiprotocol label switching; Quality of service; Telecommunication traffic; Traffic control; Web and internet services; Network Calculus; Quality of Service;
fLanguage
English
Publisher
ieee
Conference_Titel
Communication Networks and Services Research Conference, 2008. CNSR 2008. 6th Annual
Conference_Location
Halifax, NS
Print_ISBN
978-0-7695-3135-9
Type
conf
DOI
10.1109/CNSR.2008.92
Filename
4519912
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