Optimal path selection for minimizing the differential delay in ethernet-over-SONET
Computer Networks: The International Journal of Computer and Telecommunications Networking
Computer Networks: The International Journal of Computer and Telecommunications Networking
Two additive-constrained path selection in the presence of inaccurate state information
Computer Communications
Adaptive QoS provisioning by pricing incentive QoS routing for next generation networks
Computer Communications
Nonlinear search based pre-computation path selection algorithm
CSECS'08 Proceedings of the 7th conference on Circuits, systems, electronics, control and signal processing
Finding a least hop(s) path subject to multiple additive constraints
Computer Communications
On selecting the cost function for source routing
Computer Communications
COMSNETS'09 Proceedings of the First international conference on COMmunication Systems And NETworks
Dynamic multi constraint multi path QoS routing algorithm (DMCMPRA)
WOC '08 Proceedings of the Eighth IASTED International Conference on Wireless and Optical Communications
International Journal of Communication Networks and Distributed Systems
Pareto optimal based partition framework for two additive constrained path selection
ICN'05 Proceedings of the 4th international conference on Networking - Volume Part I
NETWORKING'05 Proceedings of the 4th IFIP-TC6 international conference on Networking Technologies, Services, and Protocols; Performance of Computer and Communication Networks; Mobile and Wireless Communication Systems
IP networks quality of service: overview and open issues
IICS'04 Proceedings of the 4th international conference on Innovative Internet Community Systems
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One of the challenging issues in exchanging multimedia information over a network is how to determine a feasible path that satisfies all the quality-of-service (QoS) requirements of multimedia applications while maintaining high utilization of network resources. The latter objective implies the need to impose an additional optimality requirement on the feasibility problem. This can be done through a primary cost function (e.g., administrative weight, hop-count) according to which the selected feasible path is optimal. In general, multiconstrained path selection, with or without optimization, is an NP-complete problem that cannot be exactly solved in polynomial time. Heuristics and approximation algorithms with polynomial- and pseudo-polynomial-time complexities are often used to deal with this problem. However, existing solutions suffer either from excessive computational complexities that cannot be used for online network operation or from low performance. Moreover, they only deal with special cases of the problem (e.g., two constraints without optimization, one constraint with optimization, etc.). For the feasibility problem under multiple constraints, some researchers have recently proposed a nonlinear cost function whose minimization provides a continuous spectrum of solutions ranging from a generalized linear approximation (GLA) to an asymptotically exact solution. In this paper, we propose an efficient heuristic algorithm for the most general form of the problem. We first formalize the theoretical properties of the above nonlinear cost function. We then introduce our heuristic algorithm (H_MCOP), which attempts to minimize both the nonlinear cost function (for the feasibility part) and the primary cost function (for the optimality part). We prove that H_MCOP guarantees at least the performance of GLA and often improves upon it. H_MCOP has the same order of complexity as Dijkstra's algorithm. Using extensive simulations on random graphs and realistic network topologies with correlated and uncorrelated link weights from several distributions including uniform, normal, and exponential, we show the efficiency of H_MCOP over its (less general) contenders in terms of finding feasible paths and minimizing their costs un- der the same level of computational complexity.