ICTACT Journal on Communication Technology

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Optimisation of Buffer Size for Enhancing QoS of Video Traffic Using Cross Layered Hybrid Transport Layer Protocol Approach


Affiliations
1 Department of Information Technology, IFET College of Engineering, Tamil Nadu, India
2 Department of Computer Science and Engineering, Annamalai University, Tamil Nadu, India
     

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Video streaming is gaining importance, with the wide popularity of multimedia rich applications in the Internet. Video streams are delay sensitive and require seamless flow for continuous visualization. Properly designed buffers offer a solution to queuing delay. The diagonally opposite QoS metrics associated with video traffic poses an optimization problem, in the design of buffers. This paper is a continuation of our previous work [1] and deals with the design of buffers. It aims at finding the optimum buffer size for enhancing QoS offered to video traffic. Network-centric QoS provisioning approach, along with hybrid transport layer protocol approach is adopted, to arrive at an optimum size which is independent of RTT. In this combinational approach, buffers of routers and end devices are designed to satisfy the various QoS parameters at the transport layer. OPNET Modeler is used to simulate environments for testing the design. Based on the results of simulation it is evident that the hybrid transport layer protocol approach is best suited for transmitting video traffic as it supports the economical design.

Keywords

Buffer Size, GoP (Group of Pictures), Hybrid Transport Layer Protocol, QoS (Quality of Service).
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  • Optimisation of Buffer Size for Enhancing QoS of Video Traffic Using Cross Layered Hybrid Transport Layer Protocol Approach

Abstract Views: 195  |  PDF Views: 0

Authors

S. Matilda
Department of Information Technology, IFET College of Engineering, Tamil Nadu, India
B. Palaniappan
Department of Computer Science and Engineering, Annamalai University, Tamil Nadu, India

Abstract


Video streaming is gaining importance, with the wide popularity of multimedia rich applications in the Internet. Video streams are delay sensitive and require seamless flow for continuous visualization. Properly designed buffers offer a solution to queuing delay. The diagonally opposite QoS metrics associated with video traffic poses an optimization problem, in the design of buffers. This paper is a continuation of our previous work [1] and deals with the design of buffers. It aims at finding the optimum buffer size for enhancing QoS offered to video traffic. Network-centric QoS provisioning approach, along with hybrid transport layer protocol approach is adopted, to arrive at an optimum size which is independent of RTT. In this combinational approach, buffers of routers and end devices are designed to satisfy the various QoS parameters at the transport layer. OPNET Modeler is used to simulate environments for testing the design. Based on the results of simulation it is evident that the hybrid transport layer protocol approach is best suited for transmitting video traffic as it supports the economical design.

Keywords


Buffer Size, GoP (Group of Pictures), Hybrid Transport Layer Protocol, QoS (Quality of Service).