DocumentCode :
1755038
Title :
Multiuser Admission Control and Beamforming Optimization Algorithms for MISO Heterogeneous Networks
Author :
Nguyen, Duy H. N. ; Long Bao Le ; Tho Le-Ngoc
Author_Institution :
Dept. of Electr. & Comput. Eng., McGill Univ., Montreal, QC, Canada
Volume :
3
fYear :
2015
fDate :
2015
Firstpage :
759
Lastpage :
773
Abstract :
This paper investigates the problem of joint multiuser admission control and beamforming optimization for multiple input single-output heterogeneous networks (HetNets). Considered is a HetNet where multiple newly deployed femtocell base stations (FBSs) have the coverage overlapped with that of an existing macrocell base-station (MBS). The design objective is to serve as many femto users (FUEs) as possible at their quality-of-service (QoS) requirements while maintaining the QoS requirements at the macro user (MUE). This paper then proposes three algorithmic schemes to perform multiuser admission control and beamforming optimization based on the levels of coordination between the MBS and FBSs. In Scheme I with full MBS-FBS coordination, a joint optimization framework is presented, and two solution approaches are proposed to determine the admission control and beamforming design for the FUEs in a centralized manner. In Scheme II with limited MBS-FBS coordination, a distributed algorithm that allows each FBS to unilaterally determine its admission control and beamforming strategy is proposed. This algorithm requires a certain coordination from the MBS by setting a limit on the amount of cross-tier intercell interference (ICI) that can be generated by each FBS. The convergence of the proposed distributed algorithm to a fixed point, where the QoS at the MUEs and the admitted FUEs is guaranteed, is then proved. Finally, in Scheme III without any MBS-FBS coordination, a joint multiuser admission control and zero-forcing beamforming design is then proposed. In particular, each FBS distributively admits its own FUEs while suppressing its cross-tier ICI to the MUEs, which effectively maintains the QoS at these MUEs. The simulation results show comparable performances between the distributed algorithms and the centralized ones in terms of the number of FUEs served and the network power usage.
Keywords :
array signal processing; distributed algorithms; femtocellular radio; optimisation; quality of service; radiofrequency interference; telecommunication congestion control; HetNets; ICI; MISO heterogeneous networks; QoS requirement; beamforming optimization algorithms; crosstier intercell interference; distributed algorithm; femto user; femtocell base stations; macro user; macrocell base-station; multiple input single-output heterogeneous networks; multiuser admission control; quality-of-service; zero-forcing beamforming design; Admission control; Array signal processing; Heterogeneous networks; MISO; Optimization; Admission control; MISO; heterogeneous network; multiuser beamforming; optimization;
fLanguage :
English
Journal_Title :
Access, IEEE
Publisher :
ieee
ISSN :
2169-3536
Type :
jour
DOI :
10.1109/ACCESS.2015.2441652
Filename :
7118125
Link To Document :
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