Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh

This thesis discusses the generation of network traffic using discrete Fractional Gaussian Noise (dFGN) algorithm. Since the traffic on a number of existing networks is bursty, much research focuses on how to capture the characteristics of traffic to reduce the impact of burstiness. Convention...

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Main Author: Che Ku Jusoh, Che Ku Noreymie
Format: Thesis
Language:English
Published: 2006
Subjects:
Online Access:http://ir.uitm.edu.my/id/eprint/847/
http://ir.uitm.edu.my/id/eprint/847/1/TB_CHE%20KU%20NOREYMIE%20CHE%20KU%20JUSOH%20CS%2006_5%20P01.pdf
id uitm-847
recordtype eprints
spelling uitm-8472018-10-25T08:00:41Z http://ir.uitm.edu.my/id/eprint/847/ Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh Che Ku Jusoh, Che Ku Noreymie Electronic computers. Computer science This thesis discusses the generation of network traffic using discrete Fractional Gaussian Noise (dFGN) algorithm. Since the traffic on a number of existing networks is bursty, much research focuses on how to capture the characteristics of traffic to reduce the impact of burstiness. Conventional traffic models do not represent the characteristics of burstiness well, but self–similar traffic models provide a closer approximation. Selfsimilar traffic models have two fundamental properties, long–range dependence and infinite variance, which have been found in a large number of measurement of real traffic. Self-similar traffic models also have been found to be more appropriate for the representation of bursty telecommunication traffic. The main starting point for self-similar traffic generation is the production of fractional Brownian motion (FBM) or fractional Gaussian noise (FGN). Fractional Brownian motion or Fractional Gaussian Noise is not only of interest for generation of network traffic. Its properties have been investigated by researchers in theoretical physics, probability, statistics, hydrology, biology, and many others. As a result, the techniques that have been used to study this Gaussian process are quite diverse, and it may take some effort to study them. Undoubtedly, this also makes the field more interesting. After generating FBM sample traces, a further transformation needs to be conducted with testing the result to produce the self-similar traffic. Testing is done using R/S statistic and Variance Time plot method. After analyzed the result from both tools, the accuracy is more to R/S statistic rather than Variance Time Plot. However, the test result from data 0.5 shows that VT plot is more accurate rather than R/S statistic because the result for VT plot is exactly 0.5. As a conclusion, statistical analysis of the data collected tells us that the selfsimilarity is implementing in the dfgn algorithm. 2006 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/847/1/TB_CHE%20KU%20NOREYMIE%20CHE%20KU%20JUSOH%20CS%2006_5%20P01.pdf Che Ku Jusoh, Che Ku Noreymie (2006) Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh. Degree thesis, Universiti Teknologi MARA.
repository_type Digital Repository
institution_category Local University
institution Universiti Teknologi MARA
building UiTM Institutional Repository
collection Online Access
language English
topic Electronic computers. Computer science
spellingShingle Electronic computers. Computer science
Che Ku Jusoh, Che Ku Noreymie
Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh
description This thesis discusses the generation of network traffic using discrete Fractional Gaussian Noise (dFGN) algorithm. Since the traffic on a number of existing networks is bursty, much research focuses on how to capture the characteristics of traffic to reduce the impact of burstiness. Conventional traffic models do not represent the characteristics of burstiness well, but self–similar traffic models provide a closer approximation. Selfsimilar traffic models have two fundamental properties, long–range dependence and infinite variance, which have been found in a large number of measurement of real traffic. Self-similar traffic models also have been found to be more appropriate for the representation of bursty telecommunication traffic. The main starting point for self-similar traffic generation is the production of fractional Brownian motion (FBM) or fractional Gaussian noise (FGN). Fractional Brownian motion or Fractional Gaussian Noise is not only of interest for generation of network traffic. Its properties have been investigated by researchers in theoretical physics, probability, statistics, hydrology, biology, and many others. As a result, the techniques that have been used to study this Gaussian process are quite diverse, and it may take some effort to study them. Undoubtedly, this also makes the field more interesting. After generating FBM sample traces, a further transformation needs to be conducted with testing the result to produce the self-similar traffic. Testing is done using R/S statistic and Variance Time plot method. After analyzed the result from both tools, the accuracy is more to R/S statistic rather than Variance Time Plot. However, the test result from data 0.5 shows that VT plot is more accurate rather than R/S statistic because the result for VT plot is exactly 0.5. As a conclusion, statistical analysis of the data collected tells us that the selfsimilarity is implementing in the dfgn algorithm.
format Thesis
author Che Ku Jusoh, Che Ku Noreymie
author_facet Che Ku Jusoh, Che Ku Noreymie
author_sort Che Ku Jusoh, Che Ku Noreymie
title Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh
title_short Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh
title_full Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh
title_fullStr Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh
title_full_unstemmed Generation of self similar network traffic using DFGN algorithm / Che Ku Noreymie Che Ku Jusoh
title_sort generation of self similar network traffic using dfgn algorithm / che ku noreymie che ku jusoh
publishDate 2006
url http://ir.uitm.edu.my/id/eprint/847/
http://ir.uitm.edu.my/id/eprint/847/1/TB_CHE%20KU%20NOREYMIE%20CHE%20KU%20JUSOH%20CS%2006_5%20P01.pdf
first_indexed 2023-09-18T22:45:06Z
last_indexed 2023-09-18T22:45:06Z
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