Network traffic estimation using Markov chain and Incremental Gaussian Mixture

Author

Kumlu, Deniz ; Hokelek, Ibrahim

Author_Institution

Deniz Harp Okulu, İstanbul, Turkey

fYear

2015

fDate

16-19 May 2015

Firstpage

1187

Lastpage

1190

Abstract

This paper presents a traffic flow estimation method for communication networks using higher order Markov chain and Incremental Gaussian Mixture Model (IGMM). Given the previous and current values of network traffic flow, the optimal prediction under the minimum mean square error criteria is given as the conditional expectation according to the transition probability of Markov chain. Since the transition probability is not known beforehand, IGMM, whose mixtures are updated on-line as traffic flow values become known, is used to instantaneously change the probability density function of mixtures. IGMM with an on-line learning mechanism has lower computational complexity and requires lower memory compared to Gaussian Mixture Model (GMM) which uses batch processing. Numerical experiments using publicly available “Abilene” data-set show that IGMM outperforms GMM, and it is more robust.

Keywords

Gaussian processes; Markov processes; least mean squares methods; mixture models; telecommunication traffic; Abilene data-set; IGMM; MMSE; batch processing; communication networks; higher order Markov chain; incremental Gaussian mixture model; minimum mean square error criteria; network traffic estimation; online learning mechanism; optimal prediction; probability density function; Estimation; Forecasting; Gaussian mixture model; Internet; Markov processes; Telecommunication traffic; Incremental Gaussian Mixtures Model; Markov Chain; Network traffic estimation;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing and Communications Applications Conference (SIU), 2015 23th

Conference_Location

Malatya

Type

conf

DOI

10.1109/SIU.2015.7130049

Filename

7130049