Title :
Generalized Gradient Scheduling for Vector Network Utility Maximization
Author :
Heejin Joung ; Han-Shin Jo ; Cheol Mun ; Jong-Gwan Yook
Author_Institution :
Dept. of Electr. & Electron. Eng., Yonsei Univ., Seoul, South Korea
Abstract :
Generalized network utility maximization (NUM), which has a multiple-variable vector utility function, is a key framework in network resource allocation that supports multi-class services with a different efficiency and fairness. We propose a generalized gradient scheduling (GS) that easily finds a solution to the generalized NUM problem by simplifying its objective function. The properties of the argument of the maximum and the directional derivative are applied to the simplification process. Achieving a generalized GS is a necessary condition for achieving a generalized NUM, and for a special case with scalar utility functions, the generalized GS and generalized NUM are equivalent problems. A practical application of the findings to uplink cellular networks is also presented in this paper.
Keywords :
cellular radio; optimisation; resource allocation; scheduling; vectors; GS; NUM; directional derivative; equivalent problems; generalized gradient scheduling; multiple-variable vector utility function; network resource allocation; scalar utility function; uplink cellular network; vector network utility maximization; Educational institutions; Linear programming; Pareto optimization; Resource management; Vectors; Network utility maximization; gradient scheduling; uplink channels; vector utility function;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2012.120612.122235
