Performance analysis and evaluation for multi-traffic networks with priority control
Computer Communications
Dynamic resource control for continuous media traffic over ATM networks
Computer Communications
Design and performance analysis of a new RTM algorithm for VBR traffic in ATM networks
Computer Communications
A novel SVC mechanism for call connection and control in ATM networks
Computer Communications
Research: BRP: A new learning bridge for OSInet
Computer Communications
Survey: Flow control in ATM networks: a survey
Computer Communications
A fair buffer allocation scheme
Computer Communications
A priority leaky-bucket regulator for virtual path traffic in ATM networks
Computer Communications
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Asynchronous transfer mode (ATM) is the first switching technology to be capable of supporting circuit switching and packet switching within a single integrated switching mechanism. This was one of the research goals that led to the development of ATM. Considerable progress has already been made in implementing constant bit-rate services, similar to conventional circuit switching, over ATM. The authors briefly consider how to support LAN emulation over an ATM network and then explore how to offer the dynamic bandwidth sharing in the local area. Considerable progress has already been made in implementing constant bit-rate services, similar to conventional circuit switching, over ATM. However, the bursty nature of data traffic requires dynamic bandwidth sharing similar to packet switching, and this is still under investigation