ML Detection with Blind Linear Prediction for Differential Space-Time Block Code Systems

Author

Wanichpakdeedecha, Seree ; Fukawa, Kazuhiko ; Suzuki, Hiroshi ; Suyama, Satoshi

Author_Institution

Tokyo Inst. of Technol.

Volume

5

fYear

2006

fDate

7-10 May 2006

Firstpage

2144

Lastpage

2148

Abstract

This paper proposes a maximum likelihood detection (MLD) method for the differential space-time block code (DSTBC) in cooperation with blind linear prediction (BLP) of fast frequency-flat fading channels. The method, which linearly predicts the fading complex envelope, determines the linear prediction coefficients by the method of Lagrange multipliers, and does not use decision-feedback nor require information on channel parameters such as the maximum Doppler frequency in contrast to conventional ones. Computer simulations under a fast fading condition demonstrate that the proposed method with a proper degree of polynomial approximation can be superior in BER performance to a conventional method that estimates the coefficients by the RLS algorithm using a training sequence

Keywords

block codes; error statistics; fading channels; maximum likelihood detection; polynomial approximation; space-time codes; BER performance; BLP; DSTBC; Lagrange multipliers; ML detection; RLS algorithm; bit error rate; blind linear prediction; differential space-time block code systems; fast frequency-flat fading channels; maximum likelihood detection method; polynomial approximation; recursive least square; training sequence; Approximation algorithms; Bit error rate; Block codes; Computer simulation; Fading; Frequency; Lagrangian functions; Maximum likelihood detection; Polynomials; Resonance light scattering;

fLanguage

English

Publisher

ieee

Conference_Titel

Vehicular Technology Conference, 2006. VTC 2006-Spring. IEEE 63rd

Conference_Location

Melbourne, Vic.

ISSN

1550-2252

Print_ISBN

0-7803-9391-0

Electronic_ISBN

1550-2252

Type

conf

DOI

10.1109/VETECS.2006.1683235

Filename

1683235