By Eric Setton
ISBN-10: 0387741143
ISBN-13: 9780387741147
Peer-to-Peer Video Streaming describes novel ideas to augment video caliber, bring up robustness to blunders, and decrease end-to-end latency in video streaming structures. This e-book might be of use to either lecturers and execs because it offers thorough insurance and strategies for present matters with Video Streaming and Peer-to-Peer architectures. The publication presents an summary of today’s state-of-the paintings video streaming know-how. It offers adaptive video coding and streaming options for functionality enhancement of traditional client-server platforms and P2P multicast. The distinctive appendix accommodates numerous extra experiments.
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Example text
Size of the bottleneck queue, as a function of time. Both the measured queue size and the estimated queue size are represented. The estimated queue size is obtained by considering the delay introduced over the high-bandwidth link is equal to its statistical average. server to the client. The video is compressed at 280 kb/s, with the encoding structure shown in Fig. 1. Large packets are fragmented into MTU size packets at the transport layer. As illustrated, the accuracy is satisfactory. In terms of implementation, an additional technical detail should be noted.
12 Fig. 3. Linear regression to determine the value of the parameter κ for 6 sequences. The encoding rate for the different sequences is as follows. Container: 283 kb/s, Foreman: 290 kb/s, Mobile: 306 kb/s, Mother and Daughter: 319 kb/s, News: 319 kb/s, Salesman: 311 kb/s. The estimated value of κ for the different sequences is as follows. Container: 143, Foreman: 580, Mobile: 2262, Mother and Daughter: 64, News: 180, Salesman: 130. For low-latency streaming, Ploss reflects the combination of random losses and late arrivals of video packets.
2 Congestion-Distortion Optimized Scheduling 37 Fig. 10. Size of the bottleneck queue, as a function of time. Both the measured queue size and the estimated queue size are represented. The estimated queue size is obtained by considering the delay introduced over the high-bandwidth link is equal to its statistical average. server to the client. The video is compressed at 280 kb/s, with the encoding structure shown in Fig. 1. Large packets are fragmented into MTU size packets at the transport layer.