Title :
Scarce-state-transition error-trellis decoding of binary block codes
Author :
Lee, L.H.C. ; Leung, P.S.C.
Author_Institution :
Macquarie Univ., North Ryde, NSW, Australia
Abstract :
A novel scarce-state-transition (SST) type Viterbi decoding system of block codes for discrete memoryless channels is proposed. In this work, we show that the SST-type Viterbi decoding system of convolutional codes devised by Kubota et al. (1986) can also be used to decode block codes. Like the SST-type Viterbi decoding of convolutional codes, the proposed system is well suited for CMOS LSI/VLSI implementation and has a lower power consumption. The implementation complexity is examined; the proposed decoding system has the same number of binary comparisons as the conventional Viterbi decoding system of block codes. Simulation results are presented for hard- and eight-level soft-decision decoding with BPSK modulation and coherent detection. Results show that the conventional Viterbi and the proposed SST-type Viterbi decoding systems give indistinguishable error performance for the same code
Keywords :
Viterbi decoding; binary sequences; block codes; convolutional codes; memoryless systems; phase shift keying; signal detection; telecommunication channels; BPSK; CMOS LSI/VLSI; Viterbi decoding system; binary block codes; binary comparisons; coherent detection; convolutional codes; discrete memoryless channels; error performance; error-trellis decoding; hard-decision decoding; implementation complexity; power consumption; scarce-state-transition; simulation results; soft-decision decoding;
Conference_Titel :
Telecommunications, 1995. Fifth IEE Conference on
Conference_Location :
Brighton
Print_ISBN :
0-85296-634-2
DOI :
10.1049/cp:19950120
