改进的分区快速ssc翻转解码极性码

2022 7th International Conference on Computer and Communication Systems (ICCCS) Pub Date : 2022-04-22 DOI:10.1109/icccs55155.2022.9846207

Qasim Jan, Shahid Hussain, Zechen Liu, Zhiwen Pan, Nan Liu, X. You

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引用次数: 1

摘要

在码长有限的情况下，连续对消(SC)译码的纠错性能令人不满意。引入SC-flip来提高SC译码的纠错性能。sc翻转解码考虑整个非冻结比特的绝对对数似然比来识别错误的决定。此外，它的纠错性能不能超过循环冗余检查辅助SC-list (L = 2)。在这项工作中，我们提出了一个易出错翻转列表(FL)，通过结合基于信道诱导错误分布和每个Rate-1节点的第一个比特观察到的索引，从而大大缩小了识别第一个错误位置的搜索范围。此外，我们将分区SC-flip思想与高速SC-flip解码器融合，提出了一种改进的分区快速ssc -flip (PFSSC-flip)解码器。仿真结果表明，在信噪比为3dB时，改进的PFSSC-flip比快速ssc和快速ssc -flip解码器分别增益0.8dB和0.25dB。

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Improved Partitioned Fast-SSC-Flip Decoding for Polar Codes

The error correction performance of the polar codes under successive cancellation (SC) decoding is unsatisfactory for the finite code lengths. The SC-flip is introduced to improve the error correction performance of SC decoding. The SC-flip decoding considers the absolute log-likelihood ratios of the entire nonfrozen bits to identify wrong decisions. Moreover, its error correction performance cannot outperform the cyclic redundancy check-aided SC-list (L = 2). In this work, we propose an error-prone flipping list (FL) by incorporating the indices that are observed based on channel-induced error distribution and the first bit of each Rate-1 node, thus substantially narrowing down the search span for the identification of the first erroneous location. Furthermore, we merge the partitioned SC-flip idea with the high-speed SC-flip decoders and propose an improved partitioned fast-SSC-flip (PFSSC-flip) decoder. Simulation results show that at SNR = 3dB, the improved PFSSC-flip has 0.8dB and 0.25dB gains over fast-SSC and fast-SSC-flip decoders, respectively.

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2022 7th International Conference on Computer and Communication Systems (ICCCS)

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