Jointly designed quasi-cyclic LDPC-coded cooperation with diversity combining at receiver

Author:

Asif Muhammad1ORCID,Zhou Wuyang1,Yu Qingping2,Adnan Saifullah3,Ali Md Sadek4,Iqbal Muhammad Shahid5

Affiliation:

1. Key Laboratory of Wireless-Optical Communications, University of Science and Technology of China (USTC), Hefei, China

2. National Key Laboratory of Science and Technology on Communications, University of Electronic Science and Technology of China, Chengdu, China

3. School of Electronics and Information Engineering, South China University of Technology, Guangzhou, China

4. Micro-/Nano-Electronic System Integration R and D Center (MESIC), Department of Electronic Science and Technology, University of Science and Technology of China (USTC), Hefei, China

5. School of Computer Science and Technology, Anhui University, Hefei, China

Abstract

This correspondence proposes a jointly-designed quasi-cyclic (QC) low-density parity-check (LDPC)-coded multi-relay cooperation with a destination node realized by multiple receive antennas. First, a deterministic approach is utilized to construct different classes of binary QC-LDPC codes with no length-4 cycles. Existing methods put some limitations in terms of code length and rate in order to provide high error-correction performance. Therefore, this article gives three classes of QC-LDPC codes based on a combinatoric design approach, known as cyclic difference packing (CDP), with flexibility in terms of code-length and rate selection. Second, the proposed CDP-based construction is utilized to jointly-design QC-LDPC codes for coded-relay cooperation. At the receiver, the destination node is realized by multiple receive antennas, where maximal-ratio combining (MRC) and sum-product algorithm (SPA)-based joint iterative decoding are utilized to decode the corrupted sequences coming from the source and relay nodes. Simulation results show that the proposed QC-LDPC coded-relay cooperations outperform their counterparts with a coding gain of about 0.25 dB at bit-error rate (BER) [Formula: see text] over a Rayleigh fading channel in the presence of additive white Gaussian noise. Furthermore, the extrinsic-information transfer (EXIT) chart analysis has been used to detect the convergence threshold of proposed jointly-designed QC-LDPC codes. Numerical analysis shows that the proposed jointly-designed QC-LDPC codes provide a better convergence as compared to their counterparts under the same conditions.

Funder

national natural science foundation of china

Publisher

SAGE Publications

Subject

Computer Networks and Communications,General Engineering

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