Cycle Time Properties Of The FDDI Token Ring Protocol
IEEE Transactions on Software Engineering
A look at the MPEG video coding standard for variable bit rate video transmission
IEEE INFOCOM '92 Proceedings of the eleventh annual joint conference of the IEEE computer and communications societies on One world through communications (Vol. 1)
A scheme for smoothing delay-sensitive traffic offered to ATM networks
IEEE INFOCOM '92 Proceedings of the eleventh annual joint conference of the IEEE computer and communications societies on One world through communications (Vol. 2)
Performance of high-speed networks for real-time applications
Performance of high-speed networks for real-time applications
An algorithm for lossless smoothing of MPEG video
SIGCOMM '94 Proceedings of the conference on Communications architectures, protocols and applications
Scheduling MPEG-compressed video streams with firm deadline constraints
Proceedings of the third ACM international conference on Multimedia
Guaranteeing Synchronous Message Deadlines with the Timed Token Medium Access Control Protocol
IEEE Transactions on Computers
INFOCOM '95 Proceedings of the Fourteenth Annual Joint Conference of the IEEE Computer and Communication Societies (Vol. 2)-Volume - Volume 2
Statistical characteristics and multiplexing of MPEG streams
INFOCOM '95 Proceedings of the Fourteenth Annual Joint Conference of the IEEE Computer and Communication Societies (Vol. 2)-Volume - Volume 2
An architecture for flexible scheduling in Profibus networks
Computer Standards & Interfaces
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This paper presents three transmission schemes to improve the transmission of MPEG video over a timed token medium access control (MAC) network. Multiple classes of MPEG video are used in the study. These data are captured from real video programmes and we categorized these video clips according to their traffic burstiness and workload characteristics. The performance measure of the timed token MAC network is in terms of the maximum number of MPEG video streams being transmitted without any frame missing its deadline. This simulation study observed that by employing the Regulated Scheme, we could improve the performance by 28 to 40%. When applying the Grouping Scheme for the MPEG transmission, we can improve the performance between 142 and 149%. When we combined the two schemes together, the Regulated Grouping Scheme can further improve the performance up to 153% which is a dramatic improvement over the original transmission scheme.