Title :
Addressing the Most Reliable Edge-Disjoint Paths With a Delay Constraint
Author :
Loh, Ruen Chze ; Soh, Sieteng ; Lazarescu, Mihai
Author_Institution :
Dept. of Comput., Curtin Univ. of Technol., Perth, WA, Australia
fDate :
3/1/2011 12:00:00 AM
Abstract :
Recently, multipath solutions have been proposed to improve the quality-of-service of the source to destination (s,t)-path in communication networks (CNs). This paper de scribes the λDP/DR problem to obtain λ ≥ 1 edge-disjoint (s,t)-paths (λDP) such that its reliability is maximized while keeping its delay no longer than a delay constraint D ≥ 1. This problem is NP-hard, and thus this paper proposes an approximate solution using Lagrange-relaxation. Our algorithm generates λDP with δ(λDP) ≤ D, and reliability bounded by |log(Rmin)| ≤ |log(ρ(λDP))| ≤ (1 + k)*|log(Rmin)|, where Rmin is the minimum reliability of any (s, t)-path in the CN, and k ≥ 1. Our simulations on forty random CNs and large grid networks show that our solution produces λDP with delay and reliability comparable to those obtained by the optimal but exponential time algorithm.
Keywords :
approximation theory; computational complexity; telecommunication network reliability; telecommunication network routing; telecommunication networks; λDP/DR problem; Lagrange-relaxation; NP-hard algorithm; communication networks; delay constraint; exponential time algorithm; quality-of-service; reliable edge-disjoint paths; Approximate algorithm; lagrange-relaxation; multi-constrained edge-disjoint paths; network delay; network reliability;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.2010.2103592
