Media streaming via TFRC: An analytical study of the impact of TFRC on user-perceived media quality
Computer Networks: The International Journal of Computer and Telecommunications Networking
Accurate resource estimation for homogeneous VoIP aggregated traffic
Computer Networks: The International Journal of Computer and Telecommunications Networking
Research: Congestion avoidance for ATM networks
Computer Communications
Traffic prediction and dynamic bandwidth allocation over ATM: a neural network approach
Computer Communications
Research: Queuing analysis of a non-pre-emptive MMPP/D/1 priority system
Computer Communications
An integrated admission control based on measurements in ATM networks
Computer Communications
A ΣGIi/D/1/∞ queue with heterogeneous input/output slot times
Computer Communications
An adaptive call admission control in ATM networks using optimized measurements windows
Computer Communications
On the impact of finite buffers on per-flow delays in FIFO queues
Proceedings of the 24th International Teletraffic Congress
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The performance of an asynchronous transfer mode (ATM) multiplexer whose input consists of the superposition of a multiplicity of homogeneous on-off sources modeled by a two-state Markovian process is studied. The approach is based on the approximation of the actual input process by means of a suitably chosen two-state Markov modulated Poisson process (MMPP), as a simple and effective choice for the representation of superposition arrival streams. To evaluate the cell loss performance, a new matching procedure that leads to accurate results compared to simulation is developed. The application limits of the proposed method are also discussed. The outstanding physical meaning of this procedure permits a deep insight into the multiplexer performance behavior as the source parameters and the multiplexer buffer size are varied