Quantized decoders that maximize mutual information for polar codes

Hongfei Zhu, Zhiwei Cao, Yuping Zhao, Li Dou
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Abstract

In this paper, we innovatively associate the mutual information with the frame error rate (FER) performance and propose novel quantized decoders for polar codes. Based on the optimal quantizer of binary-input discrete memoryless channels (B-DMCs), the proposed decoders quantize the virtual subchannels of polar codes to maximize mutual information (MMI) between source bits and quantized symbols. The nested structure of polar codes ensures that the MMI quantization can be implemented stage by stage. Simulation results show that the proposed MMI decoders with 4 quantization bits outperform the existing nonuniform quantized decoders that minimize mean-squared error (MMSE) with 4 quantization bits, and yield even better performance than uniform MMI quantized decoders with 5 quantization bits. Furthermore, the proposed 5-bit quantized MMI decoders approach the floating-point decoders with negligible performance loss.
使极地编码互信息最大化的量化解码器
在本文中,我们创新性地将互信息与帧误码率(FER)性能联系起来,并提出了新颖的极性编码量化解码器。基于二元输入离散无记忆信道(B-DMC)的最优量化器,所提出的解码器对极性码的虚拟子信道进行量化,以最大化源比特和量化符号之间的互信息(MMI)。极性码的嵌套结构确保了 MMI 量化可以逐级实现。仿真结果表明,所提出的 4 位量化 MMI 解码器优于现有的非均匀量化解码器(4 位量化解码器可使均方误差 (MMSE) 最小化),其性能甚至优于 5 位量化的均匀 MMI 量化解码器。此外,建议的 5 位量化 MMI 解码器接近浮点解码器,性能损失可忽略不计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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