A finite interval constant modulus criterion for multicarrier channel shortening

Author

Ben Salem, Eman ; Lopez-Valcarce, Roberto ; Besbes, Hichem ; Cherif, Sofiane

Author_Institution

Res. Unit TECHTRA, Ecole Super. des Commun. de Tunis Sup´´ Com, Tunis, Tunisia

fYear

2010

fDate

12-15 April 2010

Firstpage

560

Lastpage

563

Abstract

This paper considers time-domain equalization of fading channels for multicarrier systems with channels whose delay spread exceeds the length of the cyclic prefix. We propose to apply Regalia´s Finite Interval Constant Modulus Algorithm, which directly minimizes the constant modulus criterion for finite data sets, to the output of a single sub-carrier. This results in a blind adaptive channel shortening technique which is used to design a time-domain finite impulse response equalizer or channel shortener, whose goal is to compress the overall channel impulse response to within the length of the cyclic prefix. Simulation results are provided in terms of bit error rate (BER) in the context of wireless systems.

Keywords

FIR filters; blind equalisers; cyclic codes; error statistics; fading channels; bit error rate; blind adaptive channel shortening technique; channel impulse response; cyclic prefix; fading channel; finite data sets; finite interval constant modulus criterion; multicarrier channel shortening; time-domain equalization; time-domain finite impulse response equalizer; wireless systems; Bit error rate; Context modeling; Delay; Equalizers; Fading; Time domain analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Wireless Conference (EW), 2010 European

Conference_Location

Lucca

Print_ISBN

978-1-4244-5999-5

Type

conf

DOI

10.1109/EW.2010.5483478

Filename

5483478