SPARCs and AMP for Unsourced Random Access

Alexander Fengler, P. Jung, G. Caire
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引用次数: 56

Abstract

This paper studies the optimal achievable performance of compressed sensing based unsourced random-access communication over the real AWGN channel. "Unsourced" means that every user employs the same codebook. This paradigm, recently introduced by Polyanskiy, is a natural consequence of a very large number of potential users of which only a finite number is active in each time slot. The resemblance of compressed sensing based communication and sparse regression codes (SPARCs), a novel type of point-to-point channel codes, allows us to design and analyse an efficient unsourced random-access code. Finite blocklength simulations show that the combination of AMP decoding, with suitable approximations, together with an outer code recently proposed by Amalladinne et. al. outperforms state of the art methods in terms of required energyper-bit at lower decoding complexity.
无源随机访问的SPARCs和AMP
研究了在实际AWGN信道上基于压缩感知的无源随机接入通信的最优可实现性能。“无来源”意味着每个用户都使用相同的密码本。最近由polyansky介绍的这种范式是大量潜在用户的自然结果,每个时间段只有有限数量的用户是活跃的。基于压缩感知的通信和稀疏回归码(SPARCs)的相似性,一种新型的点对点信道码,允许我们设计和分析一个有效的无源随机访问码。有限块长模拟表明,AMP解码与合适的近似值以及Amalladinne等人最近提出的外部代码的组合在较低解码复杂度下所需的能量比特方面优于最先进的方法。
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