Research: Traffic control at terminal equipment in ATM networks using cryptographic techniques
Computer Communications
Research: ATM traffic transfer via queued-arbitrated DQDB
Computer Communications
Research note: Priority shaping of source traffic in ATM B-ISDN
Computer Communications
Design and performance analysis of a new RTM algorithm for VBR traffic in ATM networks
Computer Communications
Fuzzy multiobjective routing model in B-ISDN
Computer Communications
A priority leaky-bucket regulator for virtual path traffic in ATM networks
Computer Communications
Review: A fuzzy algorithm for combined control of traffic parameters: assessment and key issues
Computer Communications
On the impact of traffic control algorithms on resource management in ATM networks
Computer Communications
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Asynchronous transfer mode (ATM) networks, as proposed by CCITT as the solution for the future broadband ISDN, will provide high flexibility with respect to the varying bandwidth requirements of the different services. They will also support variable bit rates within a connection. The packetized information transfer, without flow control between the user and the network, in combination with the asynchronous multiplexing principle, results in a need to control the individual cell stream during the entire duration of the calls to ensure an acceptable quality of service for all coexisting calls sharing the same network resources. This kind of control will be provided by introducing a policing or usage parameter control function. Basic design objectives and requirements for such a function are described. These requirements serve as a basis for the comparison of some of the mechanisms proposed so far, namely the leaky bucket, the jumping window, the triggered jumping window, the moving window, and the exponentially weighted moving average mechanisms