Receiver-driven layered multicast
Conference proceedings on Applications, technologies, architectures, and protocols for computer communications
IP multicast channels: EXPRESS support for large-scale single-source applications
Proceedings of the conference on Applications, technologies, architectures, and protocols for computer communication
Group Communication in Differentiated Services Networks
CCGRID '01 Proceedings of the 1st International Symposium on Cluster Computing and the Grid
On the use of destination set grouping to improve fairness in multicast video distribution
INFOCOM'96 Proceedings of the Fifteenth annual joint conference of the IEEE computer and communications societies conference on The conference on computer communications - Volume 2
MQ: an integrated mechanism for multimedia multicasting
IEEE Transactions on Multimedia
Deployment issues for the IP multicast service and architecture
IEEE Network: The Magazine of Global Internetworking
An overlay framework for provisioning differentiated services in source specific multicast
Computer Networks: The International Journal of Computer and Telecommunications Networking - QoS in multiservice IP networks
Confidence-driven early object elimination in quality-aware sensor workflows
DMSN '05 Proceedings of the 2nd international workshop on Data management for sensor networks
Optimization of media processing workflows with adaptive operator behaviors
Multimedia Tools and Applications
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In this paper we propose a new scheme named DQM (Differentiated QoS Multicast) based on the Source Specific Multicast (SSM) [7] model in order to provide limited and qualitative QoS channels to support heterogeneous end users. Similar to the DiffServ paradigm, in DQM the network is configured to provide finite QoS service levels to both content provider and receivers. Based on the Service Level Agreement, both the content provider and group members should select a specific QoS channel available from the network for data transmission, and in this case arbitrarily quantitative QoS states are eliminated. Moreover, we use the group address G contained in the (S, G) tuple in SSM service model to encode QoS channels, and data packets that belong to the same QoS channel identified by a common class D address can be treated aggregately, and this can be regarded as an overlay solution to Differentiated Services, specifically for source specific multicast applications.