Fading channels: how perfect need "perfect side information" be?

Author

Lapidoth, Amos ; Shamai, Shlomo

Author_Institution

Dept. of Electr. Eng., Swiss Fed. Inst. of Technol., Zurich, Switzerland

Volume

48

Issue

5

fYear

2002

fDate

5/1/2002 12:00:00 AM

Firstpage

1118

Lastpage

1134

Abstract

The analysis of flat-fading channels is often performed under the assumption that the additive noise is white and Gaussian, and that the receiver has precise knowledge of the realization of the fading process. These assumptions imply the optimality of Gaussian codebooks and of scaled nearest-neighbor decoding. Here we study the robustness of this communication scheme with respect to errors in the estimation of the fading process. We quantify the degradation in performance that results from such estimation errors, and demonstrate the lack of robustness of this scheme. For some situations we suggest the rule of thumb that, in order to avoid degradation, the estimation error should be negligible compared to the reciprocal of the signal-to-noise ratio (SNR)

Keywords

AWGN; channel capacity; channel coding; decoding; estimation theory; fading channels; Gaussian codebooks; SNR; additive noise; degradation; estimation error; flat-fading channels; scaled nearest-neighbor decoding; signal-to-noise ratio; white Gaussian noise; Additive noise; Channel capacity; Degradation; Estimation error; Fading; Maximum likelihood decoding; Noise robustness; Performance analysis; Pulse modulation; Thumb;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/18.995552

Filename

995552