Title :
Fast Algoritms for Resource Allocation in Radio-over-Fiber Access Networks
Author :
Gomes, P.H. ; Fonseca, N. L S da ; Branquinho, O.C.
fDate :
7/1/2011 12:00:00 AM
Abstract :
This article presents algorithms for the optimization of radio resources that can be implemented in dynamic mobile networks based on RoF. The algorithms are based on linear relaxation techniques for integer linear programming (ILP) problems. The formulation models a multi-tier structure of antennas with increasing radius. Considering this antenna structure, the optimizer performs dynamic cell merging and cell splitting to save resources and improve network availability. Both the integer and the relaxation formulations produced similar results for all the experiments, but the time of processing required by the relaxed algorithms was much shorter than those required by the integer algorithms for large instance of the problem, which highlights the advantages of relaxation techniques under time constraints.
Keywords :
antennas; integer programming; linear programming; mobile radio; optical fibre networks; radio-over-fibre; ILP problems; antennas multitier structure; cell splitting; dynamic cell merging; dynamic mobile networks; integer linear programming problems; linear relaxation techniques; radio-over-fiber access networks; resource allocation; Antennas; Base stations; Dynamic scheduling; Heuristic algorithms; Mobile communication; Mobile computing; Resource management; IP Relaxation Algoritms; Mobile Networks; Optimization; Radio Resource Management; Radio-Over-Fiber;
Journal_Title :
Latin America Transactions, IEEE (Revista IEEE America Latina)
DOI :
10.1109/TLA.2011.5993745
