Beam Selection Gain Versus Antenna Selection Gain

Author

Bai, Dongwoon ; Ghassemzadeh, Saeed S. ; Miller, Robert R. ; Tarokh, Vahid

Author_Institution

Mobile Solutions Lab., Samsung US R&D Center, San Diego, CA, USA

Volume

57

Issue

10

fYear

2011

Firstpage

6603

Lastpage

6618

Abstract

We consider beam selection using a fixed beamforming network (FBN) at a base station with M array antennas. In our setting, a Butler matrix is deployed at the RF stage to form M beams, and then the best beam is selected for transmission. We introduce some properties of the noncentral chi-square distribution and prove the resulting properties of the beam selection gain verifying that beam selection is superior to antenna selection in Rician channels with any K-factors. Furthermore, we find asymptotically tight stochastic bounds of the beam selection gain, which yield approximate closed form expressions of the expected selection gain and the ergodic capacity. Beam selection has the order of growth of the ergodic capacity Θ(logM) regardless of user location in contrast to Θ(log(logM)) for antenna selection.

Keywords

Rician channels; antenna arrays; array signal processing; stochastic processes; telecommunication equipment; Butler matrix; FBN; RF stage; Rician channel; antenna array; antenna selection gain; approximate closed form expression; asymptotically tight stochastic bound; base station; beam selection gain; ergodic capacity; fixed beamforming network; k-factor; noncentral chisquare distribution; Antenna measurements; Base stations; Butler matrix; Fading; Rician channels; Signal to noise ratio; Array antennas; Butler matrix; Rician fading; beam selection; beamforming;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2011.2165814

Filename

6034710