Title :
Cooperative relaying with low-density lattice coding and joint iterative decoding
Author :
Bin Chen ; Jayakody, Dushantha N. K. ; Flanagan, Mark F.
Author_Institution :
Sch. of Electr., Electronice & Commun. Eng., Univ. Coll. Dublin, Dublin, Ireland
Abstract :
Low-density lattice codes (LDLCs) are known for their high decoding efficiency and near-capacity performance on point-to-point Gaussian channels. In this paper, we present a distributed LDLC-based cooperative relaying scheme for the multiple-access relay channel (MARC). The relay node decodes LDLC coded packets from two sources and forwards a network-coded combination to the destination. At the destination, a joint iterative decoding structure is designed to exploit the diversity gain as well as coding gain. For the LDLC-based network coding operation at the relay, we consider two alternative methods which offer a tradeoff between implementation complexity and performance, called superposition LDLC (S-LDLC) and modulo-addition LDLC (MA-LDLC). Simulation results show that the proposed scheme can provide more diversity gain and up to 6.2 dB coding gain when compared with non-cooperative LDLC coding and uncoded network-coded transmission.
Keywords :
Gaussian channels; computational complexity; cooperative communication; iterative decoding; network coding; relay networks (telecommunication); MA-LDLC; MARC; S-LDLC; coding gain; cooperative relaying; decoding efficiency; diversity gain exploitation; iterative decoding structure; low-density lattice coding; modulo-addition LDLC; multiple-access relay channel; near-capacity performance; noncooperative LDLC coding; point-to-point Gaussian channels; superposition LDLC; uncoded network-coded transmission; Decoding; Encoding; Iterative decoding; Lattices; Network coding; Relays; Vectors;
Conference_Titel :
Turbo Codes and Iterative Information Processing (ISTC), 2014 8th International Symposium on
Conference_Location :
Bremen
DOI :
10.1109/ISTC.2014.6955124
