Fine granularity adaptive multireceiver video streaming

Viktor S. Wold Eide; Frank Eliassen; Jørgen Andreas Michaelsen; Frank Jensen

doi:10.1117/12.709775

29 January 2007 Fine granularity adaptive multireceiver video streaming

Viktor S. Wold Eide, Frank Eliassen, Jørgen Andreas Michaelsen, Frank Jensen

Proceedings Volume 6504, Multimedia Computing and Networking 2007; 65040O (2007) https://doi.org/10.1117/12.709775
Event: Electronic Imaging 2007, 2007, San Jose, CA, United States

Abstract

Effcient delivery of video data over computer networks has been studied extensively for decades. Still, multi-receiver video delivery is challenging, due to heterogeneity and variability in network availability, end node capabilities, and receiver preferences. Our earlier work has shown that content-based networking is a viable technology for fine granularity multireceiver video streaming. By exploiting this technology, we have demonstrated that each video receiver is provided with fine grained and independent selectivity along the different video quality dimensions region of interest, signal to noise ratio for the luminance and the chrominance planes, and temporal resolution. Here we propose a novel adaptation scheme combining such video streaming with state-of-the-art techniques from the field of adaptation to provide receiver-driven multi-dimensional adaptive video streaming. The scheme allows each client to individually adapt the quality of the received video according to its currently available resources and own preferences. The proposed adaptation scheme is validated experimentally. The results demonstrate adaptation to variations in available bandwidth and CPU resources roughly over two orders of magnitude and that fine grained adaptation is feasible given radically different user preferences.

Citation Download Citation

Viktor S. Wold Eide, Frank Eliassen, Jørgen Andreas Michaelsen, and Frank Jensen "Fine granularity adaptive multireceiver video streaming", Proc. SPIE 6504, Multimedia Computing and Networking 2007, 65040O (29 January 2007); https://doi.org/10.1117/12.709775

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KEYWORDS

Video

Receivers

Video coding

Temporal resolution

Signal to noise ratio

Video processing

Parallel processing

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