XTP: the Xpress Transfer Protocol
XTP: the Xpress Transfer Protocol
SIGCOMM '92 Conference proceedings on Communications architectures & protocols
Continuous media communication with dynamic QOS control using ARTS with an FDDI network
SIGCOMM '92 Conference proceedings on Communications architectures & protocols
Media scaling for audiovisual communication with the Heidelberg transport system
MULTIMEDIA '93 Proceedings of the first ACM international conference on Multimedia
A quality of service architecture
ACM SIGCOMM Computer Communication Review
ATM user-network interface (UNI) specification version 3.1
ATM user-network interface (UNI) specification version 3.1
IPv6: the new Internet protocol
IPv6: the new Internet protocol
Receiver-driven layered multicast
Conference proceedings on Applications, technologies, architectures, and protocols for computer communications
Preliminary Measurement of the RMTP/RTIP
Proceedings of the Third International Workshop on Network and Operating System Support for Digital Audio and Video
Evaluation of media scaling applied multicast protocol
RTCSA '97 Proceedings of the 4th International Workshop on Real-Time Computing Systems and Applications
QOS Based Multicast Communications
MMNET '97 Proceedings of the IEEE Conference on Protocols for Multimedia Systems - Multimedia Networking (PROMSMmNet'97)
Flow labelled IP: a connectionless approach to ATM
INFOCOM'96 Proceedings of the Fifteenth annual joint conference of the IEEE computer and communications societies conference on The conference on computer communications - Volume 3
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Distributed and vertically integrated multimedia environments need transmission control methods based on real-time communication protocols that provide a relative quality of service (QoS) in order to support the many different receiving capacities of group members and their requested services. These methods should also provide a dynamic QoS to cope with the temporary CPU overloads and network congestion. Therefore, this study proposes a cooperative control method for end-to-end QoS control at transport layers and point-to-point control at network layers. The former method is mainly a set of flow-monitoring and flow-adjusting functions, while the latter is a set of flow-control functions. In addition, QoS presentation functions including QoS level scheduling at application layers and establishment of QoS connections over ATM at data link layers are necessary to make the best use of the middle layers' QoS controls. As a result, real-time transport services on multimedia systems can be achieved with vertically integrated QoS controls at each layer. These controls are implemented on widely-used internet protocols (IP) and then evaluated on practically used systems and wide-area networks. Experiments over experimental ATM-LAN environment at NTT Information and Communication Systems Laboratories and the ATM-WAN of the Keio University information super-highway show that MPC (multicast protocol for continuous services) applied multimedia systems are preferable to the conventional approach in terms of packet loss rate and delay jitter.