Title :
Upper bound of loss probability for self-similar traffic
Author :
Saito, Hiroshi ; Tsuchiya, Toshiaki
Author_Institution :
NTT Telecommun. Networks Labs., Japan
Abstract :
We investigate asynchronous transfer mode (ATM) networks with self-similar traffic. We propose upper bound formulas of the cell loss ratio, which is one of the most important quality-of-service measures in ATM networks. The existing formulas are extended to apply in the situation where an ATM multiplexer in a switch is managed by the local traffic information. By using a trace-driven simulator, we show that the proposed upper bound formulas for the cell loss ratio are applicable to self-similar traffic and can be a practical solution for the control and dimensioning of ATM networks. Numerical results also show the impacts of cell assembly and shaping on self-similarity when the source traffic is self-similar
Keywords :
asynchronous transfer mode; digital simulation; fractals; probability; simulation; telecommunication congestion control; telecommunication networks; telecommunication traffic; ATM multiplexer; ATM networks; asynchronous transfer mode; cell assembly; cell loss ratio; cell shaping; local traffic information; loss probability; network control; network dimensioning; numerical results; quality of service measures; self-similar traffic; source traffic; switch; trace-driven simulator; upper bound; upper bound formula; Assembly; Asynchronous transfer mode; Communication system traffic control; Loss measurement; Multiplexing; Quality of service; Switches; Telecommunication traffic; Traffic control; Upper bound;
Conference_Titel :
Communications, 1996. ICC '96, Conference Record, Converging Technologies for Tomorrow's Applications. 1996 IEEE International Conference on
Conference_Location :
Dallas, TX
Print_ISBN :
0-7803-3250-4
DOI :
10.1109/ICC.1996.535191
