Novel Multi-Parameter based Rate-Matching of Polar Codes

2021 International Conference on Military Communication and Information Systems (ICMCIS) Pub Date : 2021-05-04 DOI:10.1109/ICMCIS52405.2021.9486401

Souradip Saha, M. Adrat

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引用次数: 2

Abstract

Polar codes have garnered a lot of attention from the scientific community owing to their low-complexity implementation and provably capacity achieving capability. They have been proposed to be used in 5G networks. However, the conventional approach of channel polarization introduced by Arikan in [1], can be used to design only codewords of length N = 2n, which is a major limitation when codewords of length N ≠ 2n are required. To perform rate-matching for such codeword lengths, using non-2×2 circuit kernels or resizing techniques (upsizing or downsizing) are the solutions. As per the technical specifications of 3GPP 5G NR standardization document [2], a unique threshold coderate value is used to determine whether puncturing or shortening should be used for downsizing polar codes, which although being plausibly optimal for the system configurations in [2], might be sub-optimal over a wider range of design parameter settings. In this paper, we introduce a novel downsizing type-selection (DTS) parameter which takes into account codeword length, coderate, effect of polarization and number of downsized bits, to determine the preferable method for downsizing polar codes.

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一种新的基于多参数的极化码速率匹配方法

Polar码由于其低复杂度的实现和可验证的容量实现能力而受到了科学界的广泛关注。它们被提议用于5G网络。然而，Arikan在[1]中引入的通道极化的传统方法只能设计长度为N = 2n的码字，这是要求码字长度N≠2n时的主要限制。要为这样的码字长度执行速率匹配，使用non-2×2电路内核或调整大小技术(增大或缩小)是解决方案。根据3GPP 5G NR标准化文件[2]的技术规范，使用唯一的阈值来确定是否应该使用穿刺或缩短来缩小极性代码，尽管对于[2]中的系统配置来说，这似乎是最优的，但在更广泛的设计参数设置范围内可能不是最优的。本文引入一种考虑码字长度、码率、极化效应和缩码位数的缩码类型选择(DTS)参数，以确定优选的缩码方法。

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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2021 International Conference on Military Communication and Information Systems (ICMCIS)

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