In this work we treat the unsourced random access problem on a Rayleigh block-fading AWGN channel with multiple receive antennas. Specifically, we consider the slowly fading scenario where the coherence block-length is large compared to the number of active users and the message can be transmitted in one coherence block. Unsourced random access refers to a form of grant-free random access where users are considered to be a-priori indistinguishable and the receiver recovers a list of transmitted messages up to permutation. In this work we show that, when the coherence block length is large enough, a conventional approach based on the transmission of non-orthogonal pilot sequences with subsequent channel estimation and Maximum-Ratio-Combining (MRC) provides a simple energy-efficient solution whose performance can be well approximated in closed form. For the finite block-length simulations we use a randomly sub-sampled DFT matrix as pilot matrix, a low-complexity approximate message passing algorithm for activity detection and a state-of-the-art polar code as single-user error correction code with a successive-cancellation-list decoder. These simulations prove the scalability of the presented approach and the quality of the analysis.
翻译:在这项工作中,我们处理Rayleigh 区块中安装多接收天线的AWGN 频道上无源随机访问问题。 具体地说, 我们考虑一种缓慢淡化的设想, 即一致性区块长度与活跃用户数量相比很大, 并且信息可以在一个一致性区块中传递。 无源随机访问是指一种无赠与随机访问的形式, 用户被视为优先不可分, 接收者可以回收一份传送信息列表, 直至变异。 在这项工作中, 当一致性区块长度足够大时, 我们显示一种传统方法, 其基础是传输非正方形试验序列, 并随后进行频道估计和最大光电离子组合( MRC), 提供一种简单的节能解决方案, 其性能可以非常接近封闭的形式。 对于有限的区段访问模拟, 我们使用随机的子抽样DFT 矩阵作为试点矩阵, 一种低相容近似的信息传递算法, 以及一种状态极地代码, 作为单一用户错误校正校准代码, 。 这些模型将模拟质量分析 。