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Journals & Magazines >IEEE Transactions on Vehicula... >Volume: 68 Issue: 1

Channel Decoding for Nonbinary Physical-Layer Network Coding in Two-Way Relay Systems

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Pingping Chen; Long Shi; Soung Chang Liew; Yi Fang; Kui Cai
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Abstract:

In this paper, we propose a generalized channel decoding scheme for nonbinary physical-layer network coding (CD-NC) in two-way relay channels (TWRCs), where two source no...Show More

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Abstract:

In this paper, we propose a generalized channel decoding scheme for nonbinary physical-layer network coding (CD-NC) in two-way relay channels (TWRCs), where two source nodes A and B exchange their nonbinary symbols via a relay. The two sources use the same nonbinary low-density parity-check (LDPC) channel code over the integer ring ZM and M-pulse-amplitude modulation, respectively. The existing channel decoding schemes for nonbinary network coding suffer severe rate loss compared with the cut-set bound of TWRC, especially in the low-to-medium signal-to-noise ratio regime. The proposed CD-NC can decrease the rate loss. Our contributions are as follows: 1) We develop a generalized nonbinary sum product algorithm (G-SPA) for CD-NC according to the principle of virtual encoding of the superimposed symbols. Simulation results show that our CD-NC can achieve significant performance gains over the conventional nonbinary network coding for both additive white Gaussian noise and fading channels; and 2) We exploit two-dimensional fast-Fourier-transform-based belief propagation (2-D-FFT-BP) and extended min-sum (EMS) decoding algorithms to reduce the decoding complexity of G-SPA. Simulation results show that the 2-D-FFT-BP has the same performance as G-SPA, while EMS can greatly reduce the decoding complexity of G-SPA at the cost of slight performance degradation.
Published in: IEEE Transactions on Vehicular Technology ( Volume: 68, Issue: 1, January 2019)
Page(s): 628 - 640
Date of Publication: 25 November 2018

ISSN Information:

DOI: 10.1109/TVT.2018.2883509

Funding Agency:

Citations are not available for this document.
Contents

I. Introduction

Physical-layer network coding (PNC), originally proposed in [1], [2], can significantly boost the throughput of multi-user wireless communication networks. Generally, PNC transmissions in a relay network consist of two phases: multiple access phase and broadcast phase. In the multiple access phase, multiple source nodes transmit signals to a relay simultaneously. The relay aims to decode the overlapped signals into network coded (NC) messages. One basic setup for PNC is a wireless two-way relay channel (TWRC), in which two users exchange information from each other via an intermediate relay. The simplest form for the target NC messages is the bit-wise exclusive-or (XOR) of the two source messages [1]–[5].

Cites in Papers - |

Cites in Papers - IEEE (14)

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1.
Pingping Chen, Yuchen Lin, Hanxin Zeng, Yi Fang, Zhaopeng Xie, Francis C. M. Lau, "Optimization of Hierarchical-Modulated and LDPC-Coded BICM With Physical-Layer Network Coding", IEEE Internet of Things Journal, vol.11, no.21, pp.35036-35047, 2024.
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Zhaopeng Xie, Pingping Chen, Zhen Mei, Shi Long, Kui Cai, Yi Fang, "Polar-Coded Physical Layer Network Coding Over Two-Way Relay Channels", IEEE Communications Letters, vol.23, no.8, pp.1301-1305, 2019.
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Ying You, Zhaopeng Xie, Pingping Chen, Zhijian Lin, "Construction of Rate-Compatible Physical Layer Network Coding in Two-Way Relay Systems", IEEE Access, vol.7, pp.24420-24429, 2019.
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Cites in Papers - Other Publishers (4)

1.
Weimin Kang, "A nonbinary LDPC-coded four-dimensional rotated QAM constellation scheme in Rayleigh fading channel", Signal, Image and Video Processing, 2023.
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