DocumentCode
2719247
Title
An End-to-End Probabilistic Network Calculus with Moment Generating Functions
Author
Fidler, Markus
Author_Institution
Dept. of Electr. & Comput. Eng., Toronto Univ., Ont.
fYear
23006
fDate
19-21 June 23006
Firstpage
261
Lastpage
270
Abstract
Network calculus is a min-plus system theory for performance evaluation of queuing networks. Its elegance steins from intuitive convolution formulas for concatenation of deterministic servers. Recent research dispenses with the worst-case assumptions of network calculus to develop a probabilistic equivalent that benefits from statistical multiplexing. Significant achievements have been made, owing for example to the theory of effective bandwidths; however, the outstanding scalability set up by concatenation of deterministic servers has not been shown. This paper establishes a concise, probabilistic network calculus with moment generating functions. The presented work features closed-form, end-to-end, probabilistic performance bounds that achieve the objective of scaling linearly in the number of servers in series. The consistent application of moment generating functions put forth in this paper utilizes independence beyond the scope of current statistical multiplexing of flows. A relevant additional gain is demonstrated for tandem servers with independent cross-traffic
Keywords
probability; queueing theory; statistical multiplexing; telecommunication traffic; deterministic server concatenation; end-to-end probabilistic network calculus; independent cross-traffic; min-plus system theory; moment generating function; performance evaluation; queuing network; statistical multiplexing; tandem server; Calculus; Communication system traffic control; Convolution; Delay; Network servers; Queueing analysis; Shape control; Stochastic processes; Telecommunication traffic; Traffic control;
fLanguage
English
Publisher
ieee
Conference_Titel
Quality of Service, 2006. IWQoS 2006. 14th IEEE International Workshop on
Conference_Location
New Haven, CT
ISSN
1548-615X
Print_ISBN
1-4244-0476-2
Electronic_ISBN
1548-615X
Type
conf
DOI
10.1109/IWQOS.2006.250477
Filename
4015760
Link To Document