Supporting multimedia applications through network redesign

Supporting multimedia applications through network redesign

SUMMARYRecent evolutions in high‐performance computing and high speed broadband Internet access have paved a way to enterprise‐wide multimedia applications, which require stern QoS from the underlying networks. In this paper, we have explored threefold studies on existing enterprise network, whereby...

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Published in:International journal of communication systems Vol. 27; no. 3; pp. 430 - 448
Main Authors: Hussain, Tahani H., Marimuthu, Paulvanna N., Habib, Sami J.
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-03-2014
Wiley Subscription Services, Inc
Subjects:
data analysis
network assessment
Networks
NS-2 simulator
Performance evaluation
QoS metrics
Quality of service architectures
Redesign
simulation
Telephones
Voice
VoIP (protocol)
VoIP services
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Abstract SUMMARYRecent evolutions in high‐performance computing and high speed broadband Internet access have paved a way to enterprise‐wide multimedia applications, which require stern QoS from the underlying networks. In this paper, we have explored threefold studies on existing enterprise network, whereby we proposed an analytical approach to evaluate the performance of the existing network; we have examined the feasibility of existing enterprise networks to accommodate voice over Internet protocol (VoIP) services with acceptable QoS, and we have redesigned the enterprise network to accommodate VoIP services to comply with the user defined QoS. The network performance is evaluated by number of VoIP calls sustained by the network, bandwidth utilization, loss rate and latency through Network Simulation (NS‐2) tool. We have derived a cost model to show the cost‐effectiveness of VoIP services over telephonic network. For a medium‐size enterprise network of 200 clients and 9 servers, our simulation results show that the redesign improves the network performance by increasing the number of VoIP calls by 57% and decreasing bandwidth utilization and packet loss rate by 20% and 7%, respectively. Moreover, the proposed network redesign demonstrates that the network can be scalable and it can handle up to 4% increased voice calls in the future maintaining QoS standards. Copyright © 2012 John Wiley & Sons, Ltd. A framework for assessing the capacity of existing enterprise network to support voice over Internet protocol (VoIP) is proposed. Redesign solutions are provided to meet QoS requirements and to facilitate the availability of resources for future growth. The network performance is evaluated by bandwidth utilization, data loss rate, latency, and number of VoIP calls sustained by the redesigned network. Furthermore, a cost model is derived to show the cost‐effectiveness of VoIP services over conventional telephonic network.
AbstractList Recent evolutions in high‐performance computing and high speed broadband Internet access have paved a way to enterprise‐wide multimedia applications, which require stern QoS from the underlying networks. In this paper, we have explored threefold studies on existing enterprise network, whereby we proposed an analytical approach to evaluate the performance of the existing network; we have examined the feasibility of existing enterprise networks to accommodate voice over Internet protocol (VoIP) services with acceptable QoS, and we have redesigned the enterprise network to accommodate VoIP services to comply with the user defined QoS. The network performance is evaluated by number of VoIP calls sustained by the network, bandwidth utilization, loss rate and latency through Network Simulation (NS‐2) tool. We have derived a cost model to show the cost‐effectiveness of VoIP services over telephonic network. For a medium‐size enterprise network of 200 clients and 9 servers, our simulation results show that the redesign improves the network performance by increasing the number of VoIP calls by 57% and decreasing bandwidth utilization and packet loss rate by 20% and 7%, respectively. Moreover, the proposed network redesign demonstrates that the network can be scalable and it can handle up to 4% increased voice calls in the future maintaining QoS standards. Copyright © 2012 John Wiley & Sons, Ltd.
SUMMARYRecent evolutions in high‐performance computing and high speed broadband Internet access have paved a way to enterprise‐wide multimedia applications, which require stern QoS from the underlying networks. In this paper, we have explored threefold studies on existing enterprise network, whereby we proposed an analytical approach to evaluate the performance of the existing network; we have examined the feasibility of existing enterprise networks to accommodate voice over Internet protocol (VoIP) services with acceptable QoS, and we have redesigned the enterprise network to accommodate VoIP services to comply with the user defined QoS. The network performance is evaluated by number of VoIP calls sustained by the network, bandwidth utilization, loss rate and latency through Network Simulation (NS‐2) tool. We have derived a cost model to show the cost‐effectiveness of VoIP services over telephonic network. For a medium‐size enterprise network of 200 clients and 9 servers, our simulation results show that the redesign improves the network performance by increasing the number of VoIP calls by 57% and decreasing bandwidth utilization and packet loss rate by 20% and 7%, respectively. Moreover, the proposed network redesign demonstrates that the network can be scalable and it can handle up to 4% increased voice calls in the future maintaining QoS standards. Copyright © 2012 John Wiley & Sons, Ltd. A framework for assessing the capacity of existing enterprise network to support voice over Internet protocol (VoIP) is proposed. Redesign solutions are provided to meet QoS requirements and to facilitate the availability of resources for future growth. The network performance is evaluated by bandwidth utilization, data loss rate, latency, and number of VoIP calls sustained by the redesigned network. Furthermore, a cost model is derived to show the cost‐effectiveness of VoIP services over conventional telephonic network.
SUMMARY Recent evolutions in high-performance computing and high speed broadband Internet access have paved a way to enterprise-wide multimedia applications, which require stern QoS from the underlying networks. In this paper, we have explored threefold studies on existing enterprise network, whereby we proposed an analytical approach to evaluate the performance of the existing network; we have examined the feasibility of existing enterprise networks to accommodate voice over Internet protocol (VoIP) services with acceptable QoS, and we have redesigned the enterprise network to accommodate VoIP services to comply with the user defined QoS. The network performance is evaluated by number of VoIP calls sustained by the network, bandwidth utilization, loss rate and latency through Network Simulation (NS-2) tool. We have derived a cost model to show the cost-effectiveness of VoIP services over telephonic network. For a medium-size enterprise network of 200 clients and 9 servers, our simulation results show that the redesign improves the network performance by increasing the number of VoIP calls by 57% and decreasing bandwidth utilization and packet loss rate by 20% and 7%, respectively. Moreover, the proposed network redesign demonstrates that the network can be scalable and it can handle up to 4% increased voice calls in the future maintaining QoS standards. Copyright © 2012 John Wiley & Sons, Ltd. [PUBLICATION ABSTRACT]
Recent evolutions in high-performance computing and high speed broadband Internet access have paved a way to enterprise-wide multimedia applications, which require stern QoS from the underlying networks. In this paper, we have explored threefold studies on existing enterprise network, whereby we proposed an analytical approach to evaluate the performance of the existing network; we have examined the feasibility of existing enterprise networks to accommodate voice over Internet protocol (VoIP) services with acceptable QoS, and we have redesigned the enterprise network to accommodate VoIP services to comply with the user defined QoS. The network performance is evaluated by number of VoIP calls sustained by the network, bandwidth utilization, loss rate and latency through Network Simulation (NS-2) tool. We have derived a cost model to show the cost-effectiveness of VoIP services over telephonic network. For a medium-size enterprise network of 200 clients and 9 servers, our simulation results show that the redesign improves the network performance by increasing the number of VoIP calls by 57% and decreasing bandwidth utilization and packet loss rate by 20% and 7%, respectively. Moreover, the proposed network redesign demonstrates that the network can be scalable and it can handle up to 4% increased voice calls in the future maintaining QoS standards. Copyright copyright 2012 John Wiley & Sons, Ltd. A framework for assessing the capacity of existing enterprise network to support voice over Internet protocol (VoIP) is proposed. Redesign solutions are provided to meet QoS requirements and to facilitate the availability of resources for future growth. The network performance is evaluated by bandwidth utilization, data loss rate, latency, and number of VoIP calls sustained by the redesigned network. Furthermore, a cost model is derived to show the cost-effectiveness of VoIP services over conventional telephonic network.
Author Marimuthu, Paulvanna N.
Hussain, Tahani H.
Habib, Sami J.
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  doi: 10.1002/dac.1218
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Snippet SUMMARYRecent evolutions in high‐performance computing and high speed broadband Internet access have paved a way to enterprise‐wide multimedia applications,...
Recent evolutions in high‐performance computing and high speed broadband Internet access have paved a way to enterprise‐wide multimedia applications, which...
SUMMARY Recent evolutions in high-performance computing and high speed broadband Internet access have paved a way to enterprise-wide multimedia applications,...
Recent evolutions in high-performance computing and high speed broadband Internet access have paved a way to enterprise-wide multimedia applications, which...
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wiley
istex
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StartPage 430
SubjectTerms data analysis
network assessment
Networks
NS-2 simulator
Performance evaluation
QoS metrics
Quality of service architectures
Redesign
simulation
Telephones
Voice
VoIP (protocol)
VoIP services
Title Supporting multimedia applications through network redesign
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fdac.2371
https://www.proquest.com/docview/1503762192
https://search.proquest.com/docview/1559668525
Volume 27
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