超越涡轮码:速率兼容穿孔极性码

K. Niu, Kai Chen, Jiaru Lin
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引用次数: 143

摘要

CRC(循环冗余校验)级联极化码在连续对消列表(SCL)或连续对消堆栈(SCS)译码算法下优于turbo码。但是,极性码的码长受限于2的幂。为了满足任意码长结构,本文提出了一组速率兼容的刺穿极性码。我们提出了一种简单的准均匀穿刺算法来生成穿刺表。并证明了该方法比随机穿刺法具有更好的行权特性。在二进制输入加性高斯白噪声信道(BI-AWGNs)下的仿真结果表明,在大码长范围内,RCPP码的性能优于WCDMA(宽带码分多址)或LTE(长期演进)无线通信系统中的turbo码。特别是采用crc辅助SCL/SCS算法的RCPP码,在短码长M = 512、码率R = 0.5的分组误码率(BLER)为10-4时,可以提供0.7dB以上的性能增益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Beyond turbo codes: Rate-compatible punctured polar codes
CRC (cyclic redundancy check) concatenated polar codes are superior to the turbo codes under the successive cancellation list (SCL) or successive cancellation stack (SCS) decoding algorithms. But the code length of polar codes is limited to the power of two. In this paper, a family of rate-compatible punctured polar (RCPP) codes is proposed to satisfy the construction with arbitrary code length. We propose a simple quasi-uniform puncturing algorithm to generate the puncturing table. And we prove that this method has better row-weight property than that of the random puncturing. Simulation results under the binary input additive white Gaussian noise channels (BI-AWGNs) show that these RCPP codes outperform the performance of turbo codes in WCDMA (Wideband Code Division Multiple Access) or LTE (Long Term Evolution) wireless communication systems in the large range of code lengths. Especially, the RCPP code with CRC-aided SCL/SCS algorithm can provide over 0.7dB performance gain at the block error rate (BLER) of 10-4 with short code length M = 512 and code rate R = 0.5.
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