二进制擦除信道的一类容量实现阿贝尔码

2022 National Conference on Communications (NCC) Pub Date : 2022-05-24 DOI:10.1109/NCC55593.2022.9806780

Natarajan Lakshmi Prasad, Prasad Krishnan

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引用次数: 2

摘要

我们识别了一大族的阿贝尔码，它们在位- map解码下实现了二进制擦除信道(BEC)的容量。该族中的码具有丰富的自同构群，它们的长度为奇数，并且它们可以渐近地(在块长度上)达到任意码率。这个族包含了最初由Berman(1967)识别，后来由Blackmore和Norton(2001)研究的素数幂块长度码，也包含了它们对任何奇数块长度的推广。我们使用Rajan和Siddiqi(1992)使用离散傅里叶变换(DFT)表征阿贝尔码来识别我们的码族并研究它们的自同构群。然后，我们使用Kumar, Calderbank和Pfister(2016)的结果，该结果将代码的自同构组与其在BEC中的性能联系起来，以表明该代码族实现BEC容量。本文的完整版本，包括所有声明的证明和仿真结果，可在[1]上获得

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A Family of Capacity-Achieving Abelian Codes for the Binary Erasure Channel

We identify a large family of abelian codes that achieve the capacity of the binary erasure channel (BEC) under bit-MAP decoding. The codes in this family have rich automorphism groups, their lengths are odd integers, and they can asymptotically (in the block length) achieve any code rate. This family contains codes of prime power block lengths that were originally identified by Berman (1967) and later inves-tigated by Blackmore and Norton (2001), and also contains their generalization to any odd block length. We use Rajan and Siddiqi's (1992) characterization of abelian codes using discrete Fourier transform (DFT) to identify our code family and study their automorphism groups. We then use a result of Kumar, Calderbank and Pfister (2016) that relates the automorphism group of a code to its performance in the BEC to show that this code family achieves BEC capacity. The full version of this paper including the proofs of all claims and simulation results is available online [1]

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2022 National Conference on Communications (NCC)

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