增强5G及以后通信的物理层安全性：汉明窗启发的随机频率变化阵列定向调制方案与人工噪声

IF 2 4区计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Physical Communication Pub Date : 2025-02-22 DOI:10.1016/j.phycom.2025.102627

Adeel Jadoon , Abdul Basit , Wasim Khan , Umair Hafeez Khan , Mohsin Khan , Athar Waseem , Zahid Ullah

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引用次数: 0

摘要

在本文中，我们提出了一种基于汉明窗的随机变频阵列加人工噪声定向调制（RHFDA-DM-AN）方案，以增强5G及以后无线通信的物理层安全性。通过对FDA发射阵列采用基于随机汉明窗的频率偏移，我们通过产生铅笔波束，显著提高了距离角非耦合安全性，超过了基于FDA的DM和基于相控阵（PA）的DM分别提供的距离角耦合安全性和角度非耦合安全性。首先，考虑固有的热噪声，对频率偏移进行随机化处理。其次，我们导出了所提出的RHFDA-DM-AN方案的遍历保密容量（ESC）的下界封闭表达式。最后，仿真结果表明，与PA、FDA和现有基于rfda的DM-AN方案相比，该方案具有更好的性能和更高的保密能力。

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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Enhanced physical layer security for 5G and beyond communication: A hamming window inspired randomized frequency diverse array-based directional modulation scheme with artificial noise

In this paper, we propose a Hamming window inspired random frequency diverse array based directional modulation with added artificial noise (RHFDA-DM-AN) scheme to enhance physical layer security for 5G and beyond wireless communication. By employing randomized Hamming window based frequency offsets for the transmit array of FDA, we achieve a significant improvement in range-angle uncoupled security through the generation of a pencil beam, surpassing the range-angle coupled security and angle only security offered by an FDA based DM and Phased Array (PA) based DM, respectively. Firstly, the frequency offsets are randomized considering the inherent thermal noise. Next, we derived an expression for the lower bound of the Ergodic Secrecy Capacity (ESC) in closed form for the proposed RHFDA-DM-AN scheme. Finally, the simulation results demonstrate that the proposed RHFDA-DM-AN scheme achieves improved performance and higher secrecy capacity compared to state of the art PA, FDA, and existing RFDA-based DM-AN schemes.

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来源期刊

Physical Communication ENGINEERING, ELECTRICAL & ELECTRONICTELECO-TELECOMMUNICATIONS

CiteScore

5.00

自引率

9.10%

发文量

212

审稿时长

55 days

期刊介绍： PHYCOM: Physical Communication is an international and archival journal providing complete coverage of all topics of interest to those involved in all aspects of physical layer communications. Theoretical research contributions presenting new techniques, concepts or analyses, applied contributions reporting on experiences and experiments, and tutorials are published. Topics of interest include but are not limited to: Physical layer issues of Wireless Local Area Networks, WiMAX, Wireless Mesh Networks, Sensor and Ad Hoc Networks, PCS Systems; Radio access protocols and algorithms for the physical layer; Spread Spectrum Communications; Channel Modeling; Detection and Estimation; Modulation and Coding; Multiplexing and Carrier Techniques; Broadband Wireless Communications; Wireless Personal Communications; Multi-user Detection; Signal Separation and Interference rejection: Multimedia Communications over Wireless; DSP Applications to Wireless Systems; Experimental and Prototype Results; Multiple Access Techniques; Space-time Processing; Synchronization Techniques; Error Control Techniques; Cryptography; Software Radios; Tracking; Resource Allocation and Inference Management; Multi-rate and Multi-carrier Communications; Cross layer Design and Optimization; Propagation and Channel Characterization; OFDM Systems; MIMO Systems; Ultra-Wideband Communications; Cognitive Radio System Architectures; Platforms and Hardware Implementations for the Support of Cognitive, Radio Systems; Cognitive Radio Resource Management and Dynamic Spectrum Sharing.