Performability of algorithms for connection admission control

Connection admission control (CAC) in broadband, ATM-based telecommunication networks is a problem of recognized importance. We consider algorithms for this purpose that accommodate variable bit rate (VBR) connections and are based on effective bandwidth computations. Arriving VBR traffic streams are assumed to be leaky-bucket regulated and are represented by worst-case, periodic, on-off-fluid sources that are randomly phased. Moreover certain traffic classes may benefit from statistical multiplexing (S-VBR) while others may not (NS-VBR). We then evaluate the ability of such CAC algorithms to perform in the presence of fluctuating channel capacity, where the performability variable Y_T is the fraction of some specified busy period T during which the quality of service requirement is violated. A general base model that supports Y_T is then formulated and instances of the resulting performability model are constructed and solved using UltraSAN