Grant-Free Sparse Code Multiple Access for Uplink Massive Machine-Type Communications and Its Real-Time Receiver Design

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Ti-Yu Chen;Zhi-Jing Lin;Tzi-Dar Chiueh
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引用次数: 1

Abstract

Massive Machine-type Communications (mMTCs) is a major use case for the 5G standard. The grant-free (GF) sparse-coded multiple access (SCMA) transmission is particularly spectrum efficient in the sporadic uplink traffic, which is characteristic of the mMTC networks. In this paper, an uplink GF-SCMA receiver with a user activity detection (UAD) function was designed and implemented. In particular, several new techniques were proposed to enhance the SCMA decoder performance; they include delayed serial update, early stopping, message passing algorithm equation reformulation, distance approximation, and sum circuit sharing. To meet the real-time operation requirements, we implemented key inner receiver function circuits, such as carrier frequency synchronization, user signature detection, channel estimation and compensation, soft SCMA detection, etc. on a Xilinx KCU1500 FPGA chip. Finally, an over-the-air (OTA) prototype has been constructed, demonstrating the efficient and reliable multi-user GF-SCMA uplink transmission of the proposed system.
上行海量机型通信的免授权稀疏码多址及其实时接收机设计
大规模机器类型通信(mMTC)是5G标准的一个主要用例。无授权(GF)稀疏编码多址(SCMA)传输在偶发上行链路业务中特别具有频谱效率,这是mMTC网络的特征。本文设计并实现了一种具有用户活动检测(UAD)功能的上行链路GF-SCMA接收机。特别地,提出了几种新的技术来提高SCMA解码器的性能;它们包括延迟串行更新、提前停止、消息传递算法方程重构、距离近似和和和电路共享。为了满足实时操作要求,我们在Xilinx KCU1500 FPGA芯片上实现了接收机内部的关键功能电路,如载波频率同步、用户特征检测、信道估计和补偿、软SCMA检测等。最后,构建了一个空中传送(OTA)原型,证明了该系统高效可靠的多用户GF-SCMA上行链路传输。
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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