Perturbed adaptive belief propagation decoding for high-density parity-check codes
Algebraic codes such as BCH code are receiving renewed interest as their short block lengths and low/no error floors make them attractive for ultra-reliable low-latency communications (URLLC) in 5G wireless networks. This article aims at enhancing the traditional adaptive belief propagation (ABP) de...
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sg-ntu-dr.10356-1649752023-03-10T00:47:34Z Perturbed adaptive belief propagation decoding for high-density parity-check codes Deng, Li Liu, Zilong Guan, Yong Liang Liu, Xiaobei Aslam, Chaudhry Adnan Yu, Xiaoxi Shi, Zhiping School of Electrical and Electronic Engineering Temasek Laboratories @ NTU Engineering::Electrical and electronic engineering::Wireless communication systems Adaptive Belief Propagation Reed-Solomon Codes Algebraic codes such as BCH code are receiving renewed interest as their short block lengths and low/no error floors make them attractive for ultra-reliable low-latency communications (URLLC) in 5G wireless networks. This article aims at enhancing the traditional adaptive belief propagation (ABP) decoding, which is a soft-in-soft-out (SISO) decoding for high-density parity-check (HDPC) algebraic codes, such as Reed-Solomon (RS) codes, Bose-Chaudhuri-Hocquenghem (BCH) codes, and product codes. The key idea of traditional ABP is to sparsify certain columns of the parity-check matrix corresponding to the least reliable bits with small log-likelihood-ratio (LLR) values. This sparsification strategy may not be optimal when some bits have large LLR magnitudes but wrong signs. Motivated by this observation, we propose a Perturbed ABP (P-ABP) to incorporate a small number of unstable bits with large LLRs into the sparsification operation of the parity-check matrix. In addition, we propose to apply partial layered scheduling or hybrid dynamic scheduling to further enhance the performance of P-ABP. Simulation results show that our proposed decoding algorithms lead to improved error correction performances and faster convergence rates than the prior-art ABP variants. Nanyang Technological University . This work was supported by the Natural Science Foundation of China under Grant 61671128; the Sichuan Key Research and Development Project under Grant 2019YFG0105; the Guangxi Natural Science Foundation under Grant 2018GXNSFAA281161; and the Guangxi Education Department Youth Science Foundation under Grant 2019KY0796. The work of Xiaobei Liu and Yong Liang Guan was supported by Temasek Laboratories@NTU Signal Research Programme Phase 3 Grant DSOCL17187. 2023-03-10T00:47:34Z 2023-03-10T00:47:34Z 2020 Journal Article Deng, L., Liu, Z., Guan, Y. L., Liu, X., Aslam, C. A., Yu, X. & Shi, Z. (2020). Perturbed adaptive belief propagation decoding for high-density parity-check codes. IEEE Transactions On Communications, 69(4), 2065-2079. https://dx.doi.org/10.1109/TCOMM.2020.3047085 0090-6778 https://hdl.handle.net/10356/164975 10.1109/TCOMM.2020.3047085 2-s2.0-85098758118 4 69 2065 2079 en DSOCL17187 IEEE Transactions on Communications © 2020 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering::Wireless communication systems Adaptive Belief Propagation Reed-Solomon Codes |
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Engineering::Electrical and electronic engineering::Wireless communication systems Adaptive Belief Propagation Reed-Solomon Codes Deng, Li Liu, Zilong Guan, Yong Liang Liu, Xiaobei Aslam, Chaudhry Adnan Yu, Xiaoxi Shi, Zhiping Perturbed adaptive belief propagation decoding for high-density parity-check codes |
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Algebraic codes such as BCH code are receiving renewed interest as their short block lengths and low/no error floors make them attractive for ultra-reliable low-latency communications (URLLC) in 5G wireless networks. This article aims at enhancing the traditional adaptive belief propagation (ABP) decoding, which is a soft-in-soft-out (SISO) decoding for high-density parity-check (HDPC) algebraic codes, such as Reed-Solomon (RS) codes, Bose-Chaudhuri-Hocquenghem (BCH) codes, and product codes. The key idea of traditional ABP is to sparsify certain columns of the parity-check matrix corresponding to the least reliable bits with small log-likelihood-ratio (LLR) values. This sparsification strategy may not be optimal when some bits have large LLR magnitudes but wrong signs. Motivated by this observation, we propose a Perturbed ABP (P-ABP) to incorporate a small number of unstable bits with large LLRs into the sparsification operation of the parity-check matrix. In addition, we propose to apply partial layered scheduling or hybrid dynamic scheduling to further enhance the performance of P-ABP. Simulation results show that our proposed decoding algorithms lead to improved error correction performances and faster convergence rates than the prior-art ABP variants. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Deng, Li Liu, Zilong Guan, Yong Liang Liu, Xiaobei Aslam, Chaudhry Adnan Yu, Xiaoxi Shi, Zhiping |
| format |
Article |
| author |
Deng, Li Liu, Zilong Guan, Yong Liang Liu, Xiaobei Aslam, Chaudhry Adnan Yu, Xiaoxi Shi, Zhiping |
| author_sort |
Deng, Li |
| title |
Perturbed adaptive belief propagation decoding for high-density parity-check codes |
| title_short |
Perturbed adaptive belief propagation decoding for high-density parity-check codes |
| title_full |
Perturbed adaptive belief propagation decoding for high-density parity-check codes |
| title_fullStr |
Perturbed adaptive belief propagation decoding for high-density parity-check codes |
| title_full_unstemmed |
Perturbed adaptive belief propagation decoding for high-density parity-check codes |
| title_sort |
perturbed adaptive belief propagation decoding for high-density parity-check codes |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164975 |
| _version_ |
1761781582845181952 |