Geodesical codebook design for precoded MIMO systems

Author

Schober, K. ; Jänis, P. ; Wichman, R.

Author_Institution

Helsinki Univ. of Technol., Helsinki, Finland

Volume

13

Issue

10

fYear

2009

fDate

10/1/2009 12:00:00 AM

Firstpage

773

Lastpage

775

Abstract

We propose a numerical method for finding packings of multiple-input and multiple-output (MIMO) semi-unitary precoding matrices in Grassmannian manifolds with different metrics. The proposed expansion-compression algorithm (ECA) is practical, simple and produces efficient packings without the need for a sophisticated initialization. With chordal distance metric, the algorithm tends to converge into a degenerated point constellation, where two points contain identical as well as orthogonal columns and distance between them cannot increase further along geodesic. Therefore, we alternate between max-min and min-max clustering parts of ECA algorithm, where the latter prevents degenerated constellations. With Fubini-Study distance metric, the algorithm converges to best known packings without extra min-max processing.

Keywords

MIMO communication; differential geometry; matrix algebra; minimax techniques; precoding; Grassmannian manifold; chordal distance metric; expansion-compression algorithm; min-max clustering; semiunitary precoding matrix; sophisticated initialization; Algorithm design and analysis; Channel state information; Clustering algorithms; Fading; Feedback; MIMO; Power system reliability; Process design; Transmitters; Upper bound; Codebook design, max-min algorithm, geodesic, Grassmannian subspace packing, MIMO multi-antenna systems.;

fLanguage

English

Journal_Title

Communications Letters, IEEE

Publisher

ieee

ISSN

1089-7798

Type

jour

DOI

10.1109/LCOMM.2009.091067

Filename

5288459