Arrival Process-Controlled Adaptive Media Playout for Video Streaming
FMN '09 Proceedings of the 2nd International Workshop on Future Multimedia Networking
Smooth control of adaptive media playout for video streaming
IEEE Transactions on Multimedia
NETWORKING'11 Proceedings of the 10th international IFIP TC 6 conference on Networking - Volume Part I
TSFD: two stage frame dropping for scalable video transmission over data networks
Journal of Mobile Multimedia
QoS Stochastic Traffic Engineering for the wireless support of real-time streaming applications
Computer Networks: The International Journal of Computer and Telecommunications Networking
Stochastic traffic engineering for real-time applications over wireless networks
Journal of Network and Computer Applications
Computer Networks: The International Journal of Computer and Telecommunications Networking
Joint optimization of continuity and quality for streaming video
Computer Networks: The International Journal of Computer and Telecommunications Networking
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Video streaming is one of the killer applications for cellular communications. The MPEG-4 fine-granularity scalability video coding technique can adapt to bandwidth variation and random packet errors. In this paper, to explore the impacts of cellular channel characteristics on the tolerance of buffer performance and quality of service, a novel statistical model-based adaptive media playout (AMP) is proposed by utilizing the statistical assumptions of both arrival and departure processes for a better decision on the dynamic threshold adjustment and frame-rate adjustment. Based on third-generation cellular transmission environment, simulation results will demonstrate that as compared to other AMP schemes, the proposed AMP control provides better visual quality with lower complexity.