Design of network-coding based multi-edge type LDPC codes for multi-source relaying systems
Abstract
In this paper we investigate a multi-source LDPC scheme for a Gaussian relay system, where M sources communicate with the destination under the help of a single relay (M-1-1 system). Since various distributed LDPC schemes in the cooperative single-source system, e.g. bilayer LDPC and bilayer multi-edge type LDPC (BMET-LDPC), have been designed to approach the Shannon limit, these schemes can be applied to the system by the relay serving each source in a round-robin fashion. However, such a direct application is not optimal due to the lack of potential joint processing gain. In this paper, we propose a network coded multi-edge type LDPC (NCMET-LDPC) scheme for the multi-source scenario. Through an EXIT analysis, we conclude that the NCMET-LDPC scheme achieves higher extrinsic mutual information, relative to a separate application of BMET-LDPC to each source. Our new NCMET-LDPC scheme thus achieves a higher threshold relative to existing schemes.
Keywords
Cite
@article{arxiv.0910.1145,
title = {Design of network-coding based multi-edge type LDPC codes for multi-source relaying systems},
author = {Jun Li and Marwan H. Azmi and Robert. Malaney and Jinhong Yuan},
journal= {arXiv preprint arXiv:0910.1145},
year = {2009}
}
Comments
6 pages, 8figure. conference