Bounds on the trellis size of linear block codes

Author

Berger, Yuval ; Ery, YairBe

Author_Institution

Dept. of Electr. Eng.-Syst., Tel-Aviv Univ., Israel

Volume

39

Issue

1

fYear

1993

fDate

1/1/1993 12:00:00 AM

Firstpage

203

Lastpage

209

Abstract

The size of minimal trellis representation of linear block codes is addressed. Two general upper bounds on the trellis size, based on the zero-concurring codewords and the contraction index of the subcodes, are presented. The related permutations for attaining the bounds are exhibited. These bounds evidently improve the previously published general bound. Additional bounds based on certain code constructions are derived. The focus is on the squaring construction, and specific constructive bounds for Reed-Muller and repeated-root cyclic codes are obtained. In particular, the recursive squaring construction of Reed-Muller codes is explored and the exact minimal trellis size of this design is obtained. Efficient permutations, in the sense of the trellis size, are also demonstrated by using shortening and puncturing methods. The corresponding bounds are specified

Keywords

block codes; decoding; trellis codes; Reed-Muller codes; constructive bounds; contraction index; decoding; linear block codes; minimal trellis representation; puncturing methods; repeated-root cyclic codes; shortening methods; squaring construction; subcodes; trellis size; upper bounds; zero-concurring codewords; Block codes; Conferences; Convolutional codes; Linear code; Maximum likelihood decoding; Parity check codes; State-space methods; Upper bound; Viterbi algorithm;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/18.179359

Filename

179359