低轨道卫星通信中无授权NOMA联合用户识别、信道估计和数据检测

IEEE journal on selected areas in communications : a publication of the IEEE Communications Society Pub Date : 2024-09-16 DOI:10.1109/JSAC.2024.3460059

Chen Zhang;Yusha Liu;Jie Hu;Kun Yang

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引用次数: 0

摘要

卫星物联网（S-IoT）旨在提供覆盖全球的网络服务。在本文中，我们设想了一种适用于 S-IoT 网络的上行免授权随机接入方案，地面设备将数据包传输到低地球轨道（LEO）卫星，通过采用非正交多址接入方案降低信令成本并有效利用频谱资源。我们还考虑到了低地球轨道卫星高速运行的影响。我们进一步提出了一种迭代高斯近似消息传递辅助稀疏贝叶斯学习（GAMP-SBL）算法，以解决联合信道估计（CE）、主动用户识别（UID）和数据检测（DD）问题，其中这三个步骤在迭代过程中相互影响。仿真结果表明，我们提出的联合接收器设计在误码率（BER）、收敛速度和误报率（FAR）方面都优于现有的基于 AMP 的方案。

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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Joint User Identification, Channel Estimation, and Data Detection for Grant-Free NOMA in LEO Satellite Communications

Satellite Internet of things (S-IoT) aims to provide globally covered network services. In this paper, we conceive an uplink grant-free random access scheme for S-IoT network, where ground devices transmit data packets to the low Earth orbit (LEO) satellite, reducing signaling cost and making efficient use of spectrum resources by employing the non-orthogonal multiple access scheme. The impact of high operational speed of the LEO satellite is also taken into account. We further propose an iterative Gaussian approximated message passing-aided sparse Bayesian learning (GAMP-SBL) algorithm to address the joint channel estimation (CE), active user identification (UID) and data detection (DD) problem, where the three steps interacts with each other during the iterative process. Simulation results have demonstrated that our proposed joint receiver design outperforms the existing AMP-based schemes in terms of bit error rate (BER), convergence speed, as well as false alarm rate (FAR).

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IEEE journal on selected areas in communications : a publication of the IEEE Communications Society

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