Rate gains in block-coded modulation systems with interblock memory

Author

Peng, Chia-Ning ; Chen, Houshou ; Coffey, John T. ; Williams, Richard G C

Author_Institution

Broadband Access Group, Texas Instrum., San Jose, CA, USA

Volume

46

Issue

3

fYear

2000

fDate

5/1/2000 12:00:00 AM

Firstpage

851

Lastpage

868

Abstract

This paper examines the performance gains achievable by adding interblock memory to, and altering the mapping of coded bits to symbols in, block-coded modulation systems. The channel noise considered is additive Gaussian, and the twin design goals are to maximize the asymptotic coding gain and to minimize the number of apparent nearest neighbors. In the case of the additive white Gaussian noise channel, these goals translate into the design of block codes of a given weighted or `normalized´ distance whose rate is as high as possible, and whose number of codewords at minimum normalized distance is low. The effect of designing codes for normalized distance rather than Hamming distance is to ease the problem of determining the best codes for given parameters in the cases of greatest interest, and many such best codes are given

Keywords

AWGN channels; block codes; modulation coding; 8-PSK; AWGN channel; Hamming distance; QAM; additive Gaussian noise; asymptotic coding gain; best codes; block codes; block-coded modulation systems; channel noise; code design; coded bits mapping; codewords; interblock memory; minimum normalized distance; nearest neighbors; normalized distance; performance gains; rate gains; weighted distance; Additive noise; Binary codes; Block codes; Code standards; Decoding; Euclidean distance; Gaussian noise; Modular construction; Modulation coding; Performance gain;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/18.841166

Filename

841166