Title :
FATE: a polynomial time framework for flow allocation in MPLS-TE networks
Author :
Lahoud, Samer ; Texier, Géraldine ; Toutain, Laurent
Author_Institution :
Departement Reseaux et Services Multimedia, GET/ENST Bretagne, Cesson Sevigne
Abstract :
In this paper, we present a novel polynomial time framework for the off-line flow allocation problem in MPLS-traffic engineering (MPLS-TE) networks. This framework, named FATE (flow allocation for traffic engineering), encom-passes different objectives that illustrate the operator needs for traffic engineering and provides advanced control over the quality of the solution. Typically, we consider minimizing congestion, bandwidth consumption and operational costs. FATE is based on linear programming and presents an efficient solution for the problem both in terms of computational complexity and approximation guarantees. Simulation results show that we can get an efficient trade-off between congestion and bandwidth consumption while having a reduced number of label switched paths (LSPs) for various known topologies
Keywords :
bandwidth allocation; computational complexity; linear programming; multiprotocol label switching; polynomials; telecommunication traffic; MPLS-traffic engineering networks; bandwidth consumption; computational complexity; flow allocation; flow allocation for traffic engineering; label switched paths; linear programming; polynomial time framework; Bandwidth; Communication system traffic control; Computational complexity; Costs; Intelligent networks; Linear programming; Polynomials; Telecommunication traffic; Traffic control; Virtual private networks;
Conference_Titel :
Local and Metropolitan Area Networks, 2005. LANMAN 2005. The 14th IEEE Workshop on
Conference_Location :
Crete
Print_ISBN :
0-7803-9565-4
DOI :
10.1109/LANMAN.2005.1541532
