Virtual path control for ATM networks with call level quality of service guarantees

• Published in: IEEE/ACM transactions on networking Vol. 6; no. 2; pp. 222 - 236
• Main Authors: Anerousis, N., Lazar, A.A.
• Format: Journal Article
• Language: English
• Published: IEEE 01.04.1998
• Subjects: Admission control; Asynchronous transfer mode; Communication system signaling; Communication system traffic control; Large-scale systems; Quality of service; Routing; Taxonomy; Testing; Throughput
• ISSN: 1063-6692; 1558-2566
• DOI: 10.1109/90.664270

The configuration of virtual path (VP) connection services is expected to play an important role in the operation of large-scale asynchronous transfer mode (ATM) networks. A major research challenge is to understand the fundamental tradeoff between the network call throughput and the processing load on the signaling system and to provide an algorithm for VP capacity allocation that achieves an optimal network operating point while guaranteeing quality of service (QoS) at the call level and satisfies a priori bounds on the processing load of the call processors. We present a taxonomy of previous approaches to the problem and identify their strengths and weaknesses. Based on these observations, we provide an algorithm for the VP capacity allocation problem that satisfies nodal constraints on the call processing load and blocking constraints for each source-destination (SD) pair. The algorithm maximizes the network revenue under the above set of constraints and is parameterized by the number of traffic classes in the network, the method of presentation of networking resources, the admission control policy used in every link and VP, and the network routing scheme. Finally, we apply the algorithm to three sample networks and study several of its performance characteristics. In one case, we applied the calculated VP distribution to the Xunet ATM testbed and verified experimentally the predicted performance.