A Multi-state Congestion Control Scheme for Rate Adaptable Unicast Continuous Media Flows
IWDC '01 Proceedings of the Thyrrhenian International Workshop on Digital Communications: Evolutionary Trends of the Internet
Distinguishing video quality through differential matrices
Multimedia Systems
A self-adjusting rate adaptation scheme with good fairness and smoothness properties
Computer Networks: The International Journal of Computer and Telecommunications Networking
Symbiotic rate adaptation for time sensitive elastic traffic with interactive transport
Computer Networks: The International Journal of Computer and Telecommunications Networking
Interactive transparent networking-modeling examples of snoop and WTCP protocols
Computer Communications
A self-adjusting rate adaptation scheme with good fairness and smoothness properties
Computer Networks: The International Journal of Computer and Telecommunications Networking
A congestion control scheme for continuous media streaming applications
QofIS'02/ICQT'02 Proceedings of the 3rd international conference on quality of future internet services and internet charging and QoS technologies 2nd international conference on From QoS provisioning to QoS charging
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For multimedia senders to benefit the most of dynamically changing availability of network resources they need to adjust their transmission behavior in accordance with the network congestion state. In this paper, we investigate various mechanisms for realizing an additive increase and multiplicative decrease adaptation scheme based on the real time transport protocol (RTP). Through analysis and simulations we identify optimal approaches for increasing and decreasing the transmission rate.Here, we will mainly concentrate on the aspects of TCP-friendliness, dynamical setting of the adaptation parameters, fair bandwidth distribution and stability in addition to the obligatory requirements of high bandwidth utilization and low losses in the network. Note that the main challenge here is in achieving these goals using the rather infrequent RTP feedback messages.