Interactive multi-media applications: quality of service guaranteed under huge traffic

The internet has brought about revolution in the telecommunication system. The use of computer applications has changed with easiness and low cost. Interactive Multimedia IMM applications such as Voice over Internet Protocol VOIP and video conferencing are being produced. They offer beneficial...

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Main Authors: Yalli, Jameel, Abd Latif, Suhaimi, Bari, S.M. Sadakatul
Format: Article
Language:English
English
Published: Foundation of Computer Science, New York, USA 2014
Subjects:
Online Access:http://irep.iium.edu.my/38931/
http://irep.iium.edu.my/38931/1/ijca.pdf
http://irep.iium.edu.my/38931/2/IMM_QoS_Jameel_ijca.pdf
id iium-38931
recordtype eprints
spelling iium-389312014-10-30T03:46:21Z http://irep.iium.edu.my/38931/ Interactive multi-media applications: quality of service guaranteed under huge traffic Yalli, Jameel Abd Latif, Suhaimi Bari, S.M. Sadakatul T10.5 Communication of technical information The internet has brought about revolution in the telecommunication system. The use of computer applications has changed with easiness and low cost. Interactive Multimedia IMM applications such as Voice over Internet Protocol VOIP and video conferencing are being produced. They offer beneficial services to academicians, officers and other users. But these services suffer from performance degradation in the today’s high speed Wireless Local Area Network WLAN. However, guaranteed Quality of Service QoS remains the bottleneck in the network which becomes a great challenge to improve. This work reviewed many approaches attempted to improve the QoS for these applications. Here we considered mapping a QoS class parameter i.e Quality of Servive Class Identifier-to- Differentiated Services Code Points QCI/DSCP to the upstream and downstream data flowing in the core of the network that improves its overall performance. This is achieved by mapping QCI to DSCP and then mapping again the QCI/DSCP to the IMM traffic. This gives the QoS bearer packets highest priority and a strong signal. The results obtained after simulation in QualNet shows that our proposed mechanism produced better performance of the network in comparison to the default. This is measured in terms of three network performance metrics (average delay, average jitter and throughput). The overall average end-to-end delay is decreased by 34%, while overall average jitter drops by 24% and the throughput rises slightly by 4.6%. Foundation of Computer Science, New York, USA 2014 Article PeerReviewed application/pdf en http://irep.iium.edu.my/38931/1/ijca.pdf application/pdf en http://irep.iium.edu.my/38931/2/IMM_QoS_Jameel_ijca.pdf Yalli, Jameel and Abd Latif, Suhaimi and Bari, S.M. Sadakatul (2014) Interactive multi-media applications: quality of service guaranteed under huge traffic. International Journal of Computer Applications. ISSN 0975-8887 (In Press)
repository_type Digital Repository
institution_category Local University
institution International Islamic University Malaysia
building IIUM Repository
collection Online Access
language English
English
topic T10.5 Communication of technical information
spellingShingle T10.5 Communication of technical information
Yalli, Jameel
Abd Latif, Suhaimi
Bari, S.M. Sadakatul
Interactive multi-media applications: quality of service guaranteed under huge traffic
description The internet has brought about revolution in the telecommunication system. The use of computer applications has changed with easiness and low cost. Interactive Multimedia IMM applications such as Voice over Internet Protocol VOIP and video conferencing are being produced. They offer beneficial services to academicians, officers and other users. But these services suffer from performance degradation in the today’s high speed Wireless Local Area Network WLAN. However, guaranteed Quality of Service QoS remains the bottleneck in the network which becomes a great challenge to improve. This work reviewed many approaches attempted to improve the QoS for these applications. Here we considered mapping a QoS class parameter i.e Quality of Servive Class Identifier-to- Differentiated Services Code Points QCI/DSCP to the upstream and downstream data flowing in the core of the network that improves its overall performance. This is achieved by mapping QCI to DSCP and then mapping again the QCI/DSCP to the IMM traffic. This gives the QoS bearer packets highest priority and a strong signal. The results obtained after simulation in QualNet shows that our proposed mechanism produced better performance of the network in comparison to the default. This is measured in terms of three network performance metrics (average delay, average jitter and throughput). The overall average end-to-end delay is decreased by 34%, while overall average jitter drops by 24% and the throughput rises slightly by 4.6%.
format Article
author Yalli, Jameel
Abd Latif, Suhaimi
Bari, S.M. Sadakatul
author_facet Yalli, Jameel
Abd Latif, Suhaimi
Bari, S.M. Sadakatul
author_sort Yalli, Jameel
title Interactive multi-media applications: quality of service guaranteed under huge traffic
title_short Interactive multi-media applications: quality of service guaranteed under huge traffic
title_full Interactive multi-media applications: quality of service guaranteed under huge traffic
title_fullStr Interactive multi-media applications: quality of service guaranteed under huge traffic
title_full_unstemmed Interactive multi-media applications: quality of service guaranteed under huge traffic
title_sort interactive multi-media applications: quality of service guaranteed under huge traffic
publisher Foundation of Computer Science, New York, USA
publishDate 2014
url http://irep.iium.edu.my/38931/
http://irep.iium.edu.my/38931/1/ijca.pdf
http://irep.iium.edu.my/38931/2/IMM_QoS_Jameel_ijca.pdf
first_indexed 2023-09-18T20:55:56Z
last_indexed 2023-09-18T20:55:56Z
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