Channel modeling and adaptive equalization of indoor radio channels

Author

Sexton, Thomas A. ; Pahlavan, Kaveh

Author_Institution

Racal-Milgo, Fort Lauderdale, FL, USA

Volume

7

Issue

1

fYear

1989

Firstpage

114

Lastpage

121

Abstract

The authors analyze the benefits of using a decision feedback equalizer (DFE) in the indoor radio environment and examine the results of performance predictions for different channel modelings. It is found that a QPSK/DFE modem with second-order diversity can operate at a data rate that is an order of magnitude higher than a QPSK (quadratic-phase-shift-keying) modem without equalization. A given set of measured profiles of the channel impulse response is interpreted using continuous and discrete channel models. The continuous channel model is represented by the delay power spectrum and the discrete channel model by the envelope delay power spectrum and the arrival rate of the paths. The sensitivity of the performance to the shape of the delay power spectrum, and the arrival rate of the paths is analyzed.<>

Keywords

equalisers; modems; phase shift keying; radiocommunication; telecommunication channels; QPSK/DFE modem; adaptive equalization; channel impulse response; continuous channel model; decision feedback equalizer; delay power spectrum; discrete channel models; envelope delay power spectrum; indoor radio channels; path arrival rate; quadratic-phase-shift-keying; second-order diversity; Adaptive equalizers; Decision feedback equalizers; Delay; Indoor radio communication; Modems; Power system modeling; Predictive models; Quadrature phase shift keying; Spread spectrum communication; Wideband;

fLanguage

English

Journal_Title

Selected Areas in Communications, IEEE Journal on

Publisher

ieee

ISSN

0733-8716

Type

jour

DOI

10.1109/49.16852

Filename

16852