基于压缩感知的安全上行链路免授权系统

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Frontiers in signal processing Pub Date : 2022-02-23 DOI:10.3389/frsip.2022.837870
Yuanchen Wang, E. Lim, Yanfeng Zhang, Bowen Zhong, Rui Pei, Xu Zhu
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引用次数: 0

摘要

压缩感知(CS)已广泛应用于上行链路无授权通信中,其中来自不同活动用户的数据传输到基站(BS),而无需遵循严格的访问授权过程。然而,最先进的CS算法依赖于一种非常有限的测量矩阵,即导频矩阵,窃听者(Eve)可以通过分析导频矩阵来推断用户的信道信息。因此,物理层安全成为上行链路无授权通信的关键问题。本文利用时分双工系统中的信道互易性,设计了从传输信道派生的环境感知导频,以防止窃听者获取用户的信道信息。仿真结果表明,基于ea的导频方法通过置乱Eve信道估计的归一化均方误差性能,具有较高的安全性。
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Compressive Sensing-Based Secure Uplink Grant-Free Systems
Compressive sensing (CS) has been extensively employed in uplink grant-free communications, where data generated from different active users are transmitted to a base station (BS) without following the strict access grant process. Nevertheless, the state-of-the-art CS algorithms rely on a highly limited category of measurement matrix, that is, pilot matrix, which may be analyzed by an eavesdropper (Eve) to infer the user’s channel information. Thus, the physical layer security becomes a critical issue in uplink grant-free communications. In this article, the channel reciprocity in time-division duplex systems is utilized to design environment-aware (EA) pilots derived from transmission channels to prevent eavesdroppers from acquiring users’ channel information. The simulation results show that the proposed EA-based pilot approach possesses a high level of security by scrambling the Eve’s normalized mean square error performance of channel estimation.
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