Enhanced MIMO wireless video communication using multiple-description coding
Image Communication
Middleware abstractions for cross-layer controlled media streaming
Proceedings of the 2nd workshop on Middleware-application interaction: affiliated with the DisCoTec federated conferences 2008
A two-stage H.264/AVC encoder for video streaming with fast reference picture selection
Proceedings of the 4th ACM workshop on Wireless multimedia networking and performance modeling
Hybrid chaining scheme for video-on-demand applications based on popularity
AIC'08 Proceedings of the 8th conference on Applied informatics and communications
PCM'07 Proceedings of the multimedia 8th Pacific Rim conference on Advances in multimedia information processing
ICIP'09 Proceedings of the 16th IEEE international conference on Image processing
Review: A survey of schemes for Internet-based video delivery
Journal of Network and Computer Applications
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The quality of service limitation of today's best-effort networks poses major challenge for low-latency video communication. To combat network losses for real-time and on-demand video communication, which exhibits stronger dependency across packets, a network-adaptive coding scheme is employed to dynamically manage the packet dependency using optimal reference picture selection. The selection of the reference is achieved within a rate-distortion optimization framework and is adapted to the varying network conditions. For network-adaptive streaming of prestored video, based on an accurate loss-distortion model, a prescient scheme that optimizes the dependency of a group of packets is proposed to achieve global optimality as well as improved rate-distortion performance. With the improved trade-off between compression efficiency and error resilience, the proposed system does not require retransmission of lost packets, which makes less than one-second low-latency communication possible.