Author_Institution :
Dept. of Comput. Sci., Texas Univ., Dallas, TX, USA
Abstract :
A simple, robust, explicit upper bound is derived on the blocking probability for general multirate traffic, dropping a number of traditional assumptions, such as Poisson arrivals, while still maintaining optimally tight exponent of the estimation. The new approach also makes it possible to the estimate blocking probability under incomplete information. Furthermore, it remains valid in situations when the individual call bandwidth demands aggregate in complex, nonlinear ways, e.g., in case of compressible flows, priority classes or processing constraints. We show that the bound is easily applicable for fast, robust link dimensioning. Moreover, it is very well fitted for embedding into more sophisticated network optimization problems, due to its convexity properties
Keywords :
optimisation; packet switching; parameter estimation; probability; telecommunication network planning; telecommunication traffic; Poisson arrivals; blocking probability estimation; call bandwidth; compressible flows; convexity properties; fast robust link dimensioning; general multirate traffic; incomplete information; network optimization problems; network planning/optimization; optimally tight estimation exponent; packet flows; priority classes; processing constraints; robust upper bound; Aggregates; Bandwidth; Complex networks; Computer science; History; Maintenance engineering; Robustness; Telecommunication traffic; Traffic control; Upper bound;
