Prediction of Bandlimited Fading Envelopes with Arbitrary Spectral Shape

Author

Lyman, Raphael J. ; Sikora, Adam

Author_Institution

Div. of Government Commun. Syst., Harris Corp., FL

Volume

6

Issue

4

fYear

2007

fDate

4/1/2007 12:00:00 AM

Firstpage

1560

Lastpage

1567

Abstract

In mobile radio, fading-envelope prediction can improve the performance of adaptive modulation techniques that require up-to-date channel-state information for optimal performance. We show how to compute the minimum mean squared prediction error of a mobile-radio fading envelope modeled as a stationary, bandlimited process arising from a diffuse set of local scatterers. For bandlimited processes, it is difficult to solve for the Wiener predictor using the usual spectral-factorization approach. Our method reduces the prediction problem to an eigenvalue decomposition, and is appropriate when the prediction is to be based on error-corrupted estimates of a narrowband fading process. We also show how to bound the error in the computation due to truncation of infinite series

Keywords

adaptive modulation; bandlimited communication; eigenvalues and eigenfunctions; fading channels; least mean squares methods; mobile radio; Wiener predictor; adaptive modulation techniques; arbitrary spectral shape; bandlimited fading envelopes; bandlimited process; channel-state information; eigenvalue decomposition; fading-envelope prediction; minimum mean squared prediction error; mobile radio; narrowband fading process; spectral-factorization approach; Eigenvalues and eigenfunctions; Estimation error; Fading; Frequency estimation; Land mobile radio; Narrowband; Predictive models; Scattering; Spectral shape; White noise;

fLanguage

English

Journal_Title

Wireless Communications, IEEE Transactions on

Publisher

ieee

ISSN

1536-1276

Type

jour

DOI

10.1109/TWC.2007.348352

Filename

4155695