Analog Digital Belief Propagation and its application to multi stage decoding systems

2015 IEEE International Black Sea Conference on Communications and Networking (BlackSeaCom) Pub Date : 2015-05-18 DOI:10.1109/BlackSeaCom.2015.7185091

G. Montorsi, F. Kayhan

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引用次数: 5

Abstract

Next generation wireless systems will need to have higher spectral efficiency as the expected traffic volumes per unit bandwidth and dimension will inevitably grow. As a consequence, it is necessary to design coding schemes with performances close to the theoretical limits, having at the same time high flexibility and low complexity requirements at the receiver. In this paper we start by pointing out some of the main drawbacks of the Bit Interleaved Code Modulation (BICM) technique which is the state of the art adopted in several standards and then propose some lower complexity alternatives. These low complexity alternatives are obtained by applying the recently introduced Analog Digital Belief Propagation (ADBP) algorithm to a two stage encoding scheme. First we show that the loss in performance can be kept quite small by using a hard decoder in all stages of a multistage decoder (MSD) except the two lowest levels with a reasonable flexibility of choosing the code rates. Then we apply the ADBP algorithm to further reduce the decoding complexity of the soft decoded stages.

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模拟数字信念传播及其在多级译码系统中的应用

下一代无线系统将需要更高的频谱效率，因为单位带宽和尺寸的预期流量将不可避免地增长。因此，有必要设计性能接近理论极限的编码方案，同时在接收端具有高灵活性和低复杂性要求。在本文中，我们首先指出比特交织码调制(BICM)技术的一些主要缺点，这是几个标准中采用的最新技术，然后提出一些较低复杂性的替代方案。这些低复杂度的替代方案是通过将最近引入的模拟数字信念传播(ADBP)算法应用于两阶段编码方案而得到的。首先，我们表明，在多级解码器(MSD)的所有阶段使用硬解码器可以保持相当小的性能损失，除了两个最低的级别，并具有选择码率的合理灵活性。然后应用ADBP算法进一步降低软译码阶段的译码复杂度。

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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2015 IEEE International Black Sea Conference on Communications and Networking (BlackSeaCom)

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