<p>Much effort today in the Internet research community isaimed at providing network services for applications that werenot under consideration when the Internet was originallydesigned. Nowadays the network has to support real-timecommunication services that allow clients to transportinformation with expectations on network performance in termsof loss rate, maximum end-to-end delay, and maximum delayjitter. Today there exist two quality of service (QoS)architecture for the Internet: The integrated services, whichis usually referred to as intserv, and the differentiatedservices referred to as diffserv. Although the intserv clearlydefines the quality levels for each of its three serviceclasses, the limited scalability of this QoS architecture is acontinuous topic for discussion among the researchers. Theanalysis of the tradeoffs of the two QoS architecturesmotivated us to design a new QoS architecture which will takethe strength of the existing approaches and will combine themin a simpler, efficient and more scalable manner.</p><p>In this LicentiateThesis we introduce a guaranteed servicefor the Internet, which definition is similar to the one inintserv: The guaranteed service (GS) is a network servicerecommended for applications with firm requirements on qualityof end-to-end communication. The service should provide zeropacket loss in routers and tightly bound the end-to-end delay.The capacity for a GS connection should be explicitly reservedin every router along a path of a connection. However, incontrary to intserv the necessary quality level will beprovided without per-flow scheduling in the core routers, whichis the major drawback of the intserv architecture. We use thediffserv principle of dealing with aggregates in the corenetwork since this approach is proven to be scalable andefficient.</p><p>The thesis considers two major building blocks of the newarchitecture: The packet scheduling and the signaling protocol.We have developed a special scheduling algorithm. Our formaland experimental analysis of its delay properties shows thatthe maximum end-to-end delay is acceptable for real-timecommunication. Moreover, our scheme provides a fair service tothe traffic of other service classes. In order to achieve thedesired QoS level, a sufficient amount of capacity should bereserved for the GS connections in all intermediate routersend-to-end. We have developed a both simple and robustsignaling protocol. The realization of our protocol shows thatrouters are able to process up to 700,000 signaling messagesper second without overloading the processor.</p>
Identifer | oai:union.ndltd.org:UPSALLA/oai:DiVA.org:kth-1602 |
Date | January 2003 |
Creators | Ossipov, Evgueni |
Publisher | KTH, Microelectronics and Information Technology, IMIT, Kista : Mikroelektronik och informationsteknik |
Source Sets | DiVA Archive at Upsalla University |
Language | English |
Detected Language | English |
Type | Licentiate thesis, monograph, text |
Relation | Trita-IMIT-LCN. AVH, ; 03:03 |
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