Performance and design of space-time coding in fading channels

Author

Yuan, Jinhong ; Chen, Zhuo ; Vucetic, Branka ; Firmanto, Welly

Author_Institution

Sch. of Electr. Eng. & Telecommun., New South Wales Univ., NSW, Australia

Volume

51

Issue

12

fYear

2003

Firstpage

1991

Lastpage

1996

Abstract

The pairwise-error probability upper bounds of space-time codes (STCs) in independent Rician fading channels are derived. Based on the performance analysis, novel code design criteria for slow and fast Rayleigh fading channels are developed. It is found that, in fading channels, the STC design criteria depend on the value of the possible diversity gain of the system. In slow fading channels, when the diversity gain is smaller than four, the code error performance is dominated by the minimum rank and the minimum determinant of the codeword distance matrix. However, when the diversity gain is larger than, or equal to, four, the performance is dominated by the minimum squared Euclidean distance. Based on the proposed design criteria, new codes are designed and evaluated by simulation.

Keywords

Rayleigh channels; Rician channels; diversity reception; error statistics; matrix algebra; space-time codes; trellis codes; Rayleigh fading channels; Rician fading channels; STC; STTC; code error performance; codeword distance matrix; diversity gain; fading channels; fast fading channels; minimum matrix determinant; minimum matrix rank; minimum squared Euclidean distance; pairwise-error probability upper bounds; slow fading channels; space-time codes; space-time trellis code; AWGN; Australia; Convolutional codes; Diversity methods; Euclidean distance; Fading; Performance analysis; Receiving antennas; Transmitting antennas; Wireless communication;

fLanguage

English

Journal_Title

Communications, IEEE Transactions on

Publisher

ieee

ISSN

0090-6778

Type

jour

DOI

10.1109/TCOMM.2003.820741

Filename

1256737