Add to ORKGAbstract 1 We present a cooperative distribution protocol requiring clients that watch a video to forward it to the next client. As a result, the video server will only have to distribute parts of a video that no client can forward. Our protocol works best when clients have sufficient buffer capacity to store each video they are watching until they are done: when this is the case, the instantaneous server bandwidth never exceeds the video consumption rate. In addition, we also show how multicasting can further reduce the server and the network bandwidth requirements of the protocol. 1
With the explosive growth of video applications over the packet switched networks, many approaches h...
In this paper, we consider a distributed video server environment where video movies need not be sto...
This paper proposes a service for multicast video distribution based on the active network paradigm....
Despite the amelioration in communication technologies, the server network I/O bottleneck remains a ...
In this paper, we discuss the problem of distributing streaming media content, both live and on-dema...
Most existing distribution protocols for video-on-demand are tailored for a specific range of reques...
We present a stream tapping protocol that involves clients in the video distribution process. As in ...
The access patterns of most information systems follow the 80/20 rules. That is, 80% of the requests...
With the explosive growth of video applications over the Internet, many approaches have been propose...
"Delayed-multicast" is a novel transmission technique which uses internal nodes in the transmission ...
To provide scalable video-on-demand services, pre-cious system bandwidth must be shared among video ...
©2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Video on demand services require video multicasting protocols to provide efficient and reliable perf...
[[abstract]]By forwarding the server stream client by client, a chaining-based scheme is a good way ...
With the explosive growth of video applications over the Internet, many approaches have been propose...
With the explosive growth of video applications over the packet switched networks, many approaches h...
In this paper, we consider a distributed video server environment where video movies need not be sto...
This paper proposes a service for multicast video distribution based on the active network paradigm....
Despite the amelioration in communication technologies, the server network I/O bottleneck remains a ...
In this paper, we discuss the problem of distributing streaming media content, both live and on-dema...
Most existing distribution protocols for video-on-demand are tailored for a specific range of reques...
We present a stream tapping protocol that involves clients in the video distribution process. As in ...
The access patterns of most information systems follow the 80/20 rules. That is, 80% of the requests...
With the explosive growth of video applications over the Internet, many approaches have been propose...
"Delayed-multicast" is a novel transmission technique which uses internal nodes in the transmission ...
To provide scalable video-on-demand services, pre-cious system bandwidth must be shared among video ...
©2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Video on demand services require video multicasting protocols to provide efficient and reliable perf...
[[abstract]]By forwarding the server stream client by client, a chaining-based scheme is a good way ...
With the explosive growth of video applications over the Internet, many approaches have been propose...
With the explosive growth of video applications over the packet switched networks, many approaches h...
In this paper, we consider a distributed video server environment where video movies need not be sto...
This paper proposes a service for multicast video distribution based on the active network paradigm....