DocumentCode
2458152
Title
Bottleneck Detection via Aggregate Rate Analysis : A Real Case in a 3G Network
Author
Ricciato, Fabio ; Fleischer, Wolfgang
Author_Institution
Forschungszentrum Telekommunikation Wien
fYear
2006
fDate
3-7 April 2006
Firstpage
1
Lastpage
4
Abstract
We address the problem of inferring the presence of a bottleneck from passive measurement in a 3G core network. The work is based on two weeks of packet traces collected in the core network of Mobilkom Austria AG&CoKG, the leading mobile telecommunications provider in Austria, EU. During the measurement period a bottleneck link in the 3G core network was revealed and removed, therefore the traces enable the accurate analysis and comparison of the traffic behavior in the two network conditions. The proposed diagnosis approach is based on the marginal rate distribution of the aggregate traffic. Since TCP is the dominant component in the overall traffic mix, the presence of a bottleneck strains the aggregate rate distribution, compressing it against the bottleneck capacity limit during the peak hour. The analysis of the trajectories of the first central moments (variance, skewness) can reveal such strain without any a priori knowledge of the provisioned capacity
Keywords
3G mobile communication; telecommunication traffic; transport protocols; 3G core network; Mobilkom Austria AG&CoKG; TCP; aggregate rate distribution analysis; aggregate traffic behavior; bottleneck capacity limit; bottleneck detection; central moments; marginal rate distribution; mobile telecommunications provider; packet traces; passive measurement; Aggregates; Analysis of variance; Capacitive sensors; Computer aided software engineering; Costs; Intelligent networks; Monitoring; Performance analysis; Portfolios; Telecommunication traffic;
fLanguage
English
Publisher
ieee
Conference_Titel
Network Operations and Management Symposium, 2006. NOMS 2006. 10th IEEE/IFIP
Conference_Location
Vancouver, BC
ISSN
1542-1201
Print_ISBN
1-4244-0142-9
Type
conf
DOI
10.1109/NOMS.2006.1687628
Filename
1687628
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