Space-time eigenRAKE and downlink eigenibeamformer: exploiting long-term and short-term channel properties in WCDMA

Author

Brunner, Christopher ; Hammerschmidt, Joachim S. ; Seeger, Alexander ; Nosek, J.A.

Author_Institution

Inst. for Circuit Theory & Signal Process., Tech. Univ. Munchen, Germany

Volume

1

fYear

2000

fDate

2000

Firstpage

138

Abstract

For WCDMA base stations using adaptive antennas, we present a new space-time RAKE structure for uplink reception. Our approach combines short-term and long-term spatial and temporal channel properties using an eigenanalysis. By choosing dominant eigenbeams in time and space, the algorithm enhances interference suppression as well as spatial and temporal receive diversity. In contrast to previously introduced well-known receiver structures, the space-time eigenRAKE inherently adapts to different propagation environments and achieves higher spectral efficiency than other receivers, e.g., the beamformer RAKE. This is illustrated by Monte-Carlo simulations. Finally, we extend the proposed concept to the downlink, improving closed-loop downlink diversity compared to other proposals in standardization. Even though the feedback rate remains unchanged, additional antenna elements can be included to increase the antenna and diversity gains

Keywords

Monte Carlo methods; adaptive antenna arrays; array signal processing; broadband networks; code division multiple access; digital radio; digital simulation; diversity reception; eigenvalues and eigenfunctions; interference suppression; land mobile radio; multiuser channels; radio links; radio networks; radio receivers; radiofrequency interference; Monte-Carlo simulations; WCDMA base stations; adaptive antennas; antenna elements; antenna gain; closed-loop downlink diversity; digital mobile radio communication; diversity gain; downlink eigenibeamformer; eigenanalysis; eigenbeams; feedback rate; interference suppression; long-term channel properties; propagation environments; short-term channel properties; space-time RAKE structure; space-time eigenRAKE; spatial channel properties; spatial receive diversity; spectral efficiency; standardization; temporal channel properties; temporal receive diversity; uplink reception; Adaptive arrays; Antenna feeds; Base stations; Downlink; Feedback; Interference suppression; Multiaccess communication; Proposals; RAKE receivers; Standardization;

fLanguage

English

Publisher

ieee

Conference_Titel

Global Telecommunications Conference, 2000. GLOBECOM '00. IEEE

Conference_Location

San Francisco, CA

Print_ISBN

0-7803-6451-1

Type

conf

DOI

10.1109/GLOCOM.2000.891722

Filename

891722