Convolutional codes with correlated diversity and non-coherent orthogonal digital modulation

Author

Chang, C.S. ; McLane, P.J.

Author_Institution

Motorola Inc., Boynton Beach, FL, USA

Volume

1

fYear

1995

fDate

18-22 Jun 1995

Firstpage

347

Abstract

The performance analysis for binary convolutional codes and non-coherent, orthogonal digital modulation used on a Rayleigh fading channel with independent diversity branches is given in [1]. We extend this analysis to the case with correlated branch diversity. We find that branch correlation degrades a noncoherent coded modulation system but the correlation coefficients must be above 0.50 to get appreciable losses. Our analysis holds for any number of diversity branches, and computations are presented for dual diversity. Finally, even in the correlated case, we find that diversity improves channel conditions for error correction coding as both techniques can be jointly deployed to give considerable performance improvement for fading channels

Keywords

Rayleigh channels; convolutional codes; correlation methods; diversity reception; fading; modulation coding; Rayleigh fading channel; binary convolutional codes; branch correlation; channel conditions; correlated branch diversity; correlated diversity; correlation coefficients; dual diversity; error correction coding; independent diversity branches; noncoherent coded modulation system; noncoherent orthogonal digital modulation; performance analysis; performance improvement; Binary codes; Convolutional codes; Digital filters; Digital modulation; Eigenvalues and eigenfunctions; Error probability; Matched filters; Performance analysis; Random variables; Rayleigh channels;

fLanguage

English

Publisher

ieee

Conference_Titel

Communications, 1995. ICC '95 Seattle, 'Gateway to Globalization', 1995 IEEE International Conference on

Conference_Location

Seattle, WA

Print_ISBN

0-7803-2486-2

Type

conf

DOI

10.1109/ICC.1995.525191

Filename

525191