Title :
Effective bandwidth vectors for multiclass traffic multiplexed in partitioned buffer
Author :
Kulkarni, V.G. ; Gun, L. ; Chimento, P.F.
Author_Institution :
Networking Anal. Center, IBM High Bandwidth Networking, Research Triangle Park, NC, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
We consider a traffic model where a single source generates traffic having J (J⩾2) quality of service (QoS) classes, QoS in this case described by a cell loss probability objective εj for QoS class j. We assume that ε1⩾ε2 ⩾...⩾εJ, in other words, class J has the most stringent QoS requirements and class 1 the least. The traffic from K such independent heterogeneous Markov-modulated fluid sources is multiplexed into a single buffer of size B. There are J-1 thresholds {B j, 1⩽j⩽J-1} such that 0<B1<B2 <...<BJ-1<B. Let B0=0 and BJ =B. If the buffer content is in (Bj-1, Bj), 1⩽j⩽J only traffic of class index J or above is accepted and all other traffic is rejected. For this system of K sources we define an effective bandwidth vector of size J such that QoS requirements for all classes are satisfied if each component of the vector is less than the channel capacity. We propose several bandwidth vectors that can be computed for each source separately. Numerical studies are reported on the efficacy of these bandwidth vectors
Keywords :
asynchronous transfer mode; buffer storage; channel capacity; multiplexing; probability; telecommunication services; telecommunication traffic; ATM; Markov-modulated fluid sources; cell loss probability; channel capacity; effective bandwidth vectors; independent heterogeneous fluid sources; multiclass traffic; multiplexing; partitioned buffer; quality of service; traffic model; Admission control; Bandwidth; Bismuth; Channel capacity; Helium; High-speed networks; Quality of service; Resource management; Senior members; Traffic control;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
