On Performance Loss of Some CoMP Techniques Under Channel Power Imbalance and Limited Feedback

Author

Haile, Beneyam B. ; Dowhuszko, Alexis A. ; Hamalainen, Jyri ; Wichman, Risto ; Zhi Ding

Author_Institution

Sch. of Electr. Eng., Aalto Univ., Aalto, Finland

Volume

14

Issue

8

fYear

2015

fDate

Aug. 2015

Firstpage

4469

Lastpage

4481

Abstract

Spatially distributed transmissions in coordinated multipoint (CoMP) systems can lead to mean channel power imbalance (CPI) at the receiver. Similar imbalance also occurs in distributed antenna and co-located multi-antenna systems due to inaccurate antenna calibration. This paper studies performance impact of power imbalance on some practical CoMP methods with limited feedback. We derive approximate analytical expressions of asymptotic capacity, optimal amplitude weights, as well as signal-to-noise ratio gain for a few methods under analysis. Numerical results validate the analysis and show impacts of erroneous feedback under CPI. Results demonstrate that CPI has significant negative impact on the CoMP performance. Furthermore, our results reveal that amplitude information at transmitter is crucial and detrimental effect of CPI can be effectively compensated by using long-term amplitude information at transmitter. Moreover, additional short-term amplitude feedback shows insignificant gain when a large number of diversity antennas in base stations or CoMP suffer from feedback errors. In fact, a sparsely quantized phase and long-term power information feedback can lead to performance very close to the use of full channel state information at the transmitter.

Keywords

antenna arrays; diversity reception; feedback; radio receivers; radio transmitters; wireless channels; CPI; CoMP technique; Limited Feedback; asymptotic capacity approximate analytical expression; base station; channel power imbalance; channel state information; colocated multiantenna system; coordinated multipoint system; distributed antenna; diversity antenna; long-term amplitude information; long-term power information feedback; optimal amplitude weight; receiver; short-term amplitude feedback; signal-to-noise ratio gain; spatially distributed transmission; transmitter; Array signal processing; Diversity reception; Fading; Signal to noise ratio; Transmitting antennas; Coordinated multipoint transmission; channel power imbalance; distributed antenna system; transmit beamforming;

fLanguage

English

Journal_Title

Wireless Communications, IEEE Transactions on

Publisher

ieee

ISSN

1536-1276

Type

jour

DOI

10.1109/TWC.2015.2421898

Filename

7084197