Spatially coupled turbo codes: Principles and finite length performance

Author

Graell i Amat, Alexandre ; Moloudi, Saeedeh ; Lentmaier, Michael

Author_Institution

Dept. of Signals & Syst., Chalmers Univ. of Technol., Gothenburg, Sweden

fYear

2014

fDate

26-29 Aug. 2014

Firstpage

883

Lastpage

887

Abstract

In this paper, we give an overview of spatially coupled turbo codes (SC-TCs), the spatial coupling of parallel and serially concatenated convolutional codes, recently introduced by the authors. For presentation purposes, we focus on spatially coupled serially concatenated codes (SC-SCCs). We review the main principles of SC-TCs and discuss their exact density evolution (DE) analysis on the binary erasure channel. We also consider the construction of a family of rate-compatible SC-SCCs with simple 4-state component encoders. For all considered code rates, threshold saturation of the belief propagation (BP) to the maximum a posteriori threshold of the uncoupled ensemble is demonstrated, and it is shown that the BP threshold approaches the Shannon limit as the coupling memory increases. Finally we give some simulation results for finite lengths.

Keywords

concatenated codes; convolutional codes; maximum likelihood estimation; turbo codes; BP; DE analysis; SC-TC; Shannon limit; belief propagation; binary erasure channel; code rates; coupling memory; density evolution analysis; finite length performance; maximum a posteriori threshold; parallel convolutional codes; rate-compatible SC-SCC; serially convolutional codes; spatially coupled serially concatenated codes; spatially coupled turbo codes; threshold saturation; Concatenated codes; Convolutional codes; Couplings; Decoding; Parity check codes; Systematics; Turbo codes;

fLanguage

English

Publisher

ieee

Conference_Titel

Wireless Communications Systems (ISWCS), 2014 11th International Symposium on

Conference_Location

Barcelona

Type

conf

DOI

10.1109/ISWCS.2014.6933478

Filename

6933478