Title :
Delay-bounded priority-driven resource allocation for two-tier macrocell/femtocell downlink
Author :
Xin Chen ; Yuan Si ; Xudong Xiang
Author_Institution :
Comput. Sch., Beijing Inf. Sci. & Technol. Univ., Beijing, China
Abstract :
Femtocell is an efficient solution for mobile operators to expand indoor coverage and increase network capacity. In this paper, we study the downlink resource allocation problem of two-tier macrocell-femtocell networks. We first formulate the problem as a Mixed Integer Non-Linear Program (MINLP) which aims to maximize the capacity of clustered femtocell networks subject to hard delay constraints of flows with different priorities. Next, we apply Stochastic Network Calculus (SNC) to transforming the delay constraints into alternative minimum capacity requirements, and propose a resource allocation algorithm called S-SAPCS to solve the MINLP. Simulation results show that the proposed S-SAPCS algorithm has near-optimal performance. Moreover, it is able to exploit the statistical multiplexing gain among multiple flows.
Keywords :
calculus; femtocellular radio; indoor radio; integer programming; mobile radio; nonlinear programming; resource allocation; statistical multiplexing; stochastic processes; synchronisation; MINLP; S-SAPCS algorithm; SNC; delay constraints; delay-bounded priority-driven resource allocation; downlink resource allocation problem; femtocell downlink; indoor coverage; mixed integer nonlinear program; mobile operators; network capacity; resource allocation algorithm; statistical multiplexing gain; stochastic network calculus; two-tier macrocell-femtocell networks; Delays; Quality of service; Resource management; Silicon; Streaming media; Femtocell; delay bound; resourceallocation; statistical multiplexing gain; strict priority;
Conference_Titel :
Game Theory for Networks (GAMENETS), 2014 5th International Conference on
Print_ISBN :
978-0-9909-9430-5
DOI :
10.1109/GAMENETS.2014.7043720
