Self-recovering transceivers for block transmissions: filterbank precoders and decision-feedback equalizers

Author

Stamoulis, Anastasios ; Giannakis, Georgios B. ; Scaglione, Anna

Author_Institution

Dept. of ECE, Minnesota Univ., Minneapolis, MN, USA

fYear

1999

fDate

1999

Firstpage

243

Lastpage

246

Abstract

Transmitter induced redundancy using FIR filterbanks can be used to equalize FIR channels irrespective of channel zeros and facilitate blind channel estimation. At the receiver end, linear or non-linear (DFE) FIR filterbanks can be applied to recover the transmitted data. Closed form expressions are derived for the FIR linear or DFE filterbank receivers. By applying blind channel estimation methods, the resulting DFE-framework becomes self-recovering. Extensive simulations illustrate the merits of our designs

Keywords

FIR filters; channel bank filters; decision feedback equalisers; encoding; nonlinear filters; parameter estimation; transceivers; BER; DFE FIR filterbanks; DFE filterbank receiver; FIR channels equalisation; FIR linear filterbank receiver; blind channel estimation; blind channel estimation methods; block transmissions; channel zeros; closed form expressions; decision-feedback equalizers; filterbank precoders; linear FIR filterbanks; nonlinear FIR filterbanks; self-recovering transceivers; simulations; transmitted data recovery; transmitter induced redundancy; Additive noise; Bit error rate; Blind equalizers; Channel estimation; Decision feedback equalizers; Filter bank; Finite impulse response filter; Nonlinear filters; Transceivers; Transmitters;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing Advances in Wireless Communications, 1999. SPAWC '99. 1999 2nd IEEE Workshop on

Conference_Location

Annapolis, MD

Print_ISBN

0-7803-5599-7

Type

conf

DOI

10.1109/SPAWC.1999.783064

Filename

783064