低地球轨道卫星系统的高能效物理层安全方案

IF 0.9 4区 计算机科学 Q3 ENGINEERING, AEROSPACE
Satya Chan, Sooyoung Kim, Hee Wook Kim, Bon-Jun Ku, Daesub Oh
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引用次数: 0

摘要

摘要 本文介绍了在低地球轨道(LEO)卫星系统中增强物理层安全性(PLS)的四项建议。第一项建议利用人工噪声(AN)辅助的阿拉木图码,涉及两颗低地轨道卫星的协同使用,以确保安全的下行链路传输。在实施功率平衡 Alamouti 代码时,其效率得到进一步提高。第二项 PLS 提议利用可重构智能表面 (RIS) 对潜在窃听者进行干扰。由于 RIS 可管理反射信道,因此无需额外的发射功率或接收器操作即可实现这一安全措施。第三种方案综合了第一和第二种方案,与单独的方案相比,保密率得到了提高,几乎达到了可实现的最大保密率。第四种方案是基于中继的方法,确保从卫星到中继以及从卫星和中继到合法用户的所有传输链路的安全。本文提供的保密性能仿真结果表明了所提方案的显著效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Energy-efficient physical layer security schemes for low Earth orbit satellite systems

Energy-efficient physical layer security schemes for low Earth orbit satellite systems

This paper introduces four proposals to enhance physical layer security (PLS) in low Earth orbit (LEO) satellite systems. The first proposal leverages the Alamouti code aided by artificial noise (AN) and involves the collaborative use of two LEO satellites, ensuring secure downlink transmission. Its efficiency is further enhanced when implementing a power-balanced Alamouti code. The second PLS proposal capitalizes on an reconfigurable intelligent surface (RIS) to introduce interference to potential eavesdroppers. As the RIS manages the reflected channel, this security measure is achieved without necessitating additional transmit power or receiver operations. The third proposal integrates the first and second solutions, resulting in improved secrecy rates compared to the individual proposals, nearly reaching the maximum achievable rate. The fourth proposal is based on a relay-based method, securing all transmission links from the satellite to the relay and from the satellite and relay to the legitimate user. The secrecy performance simulation results presented in the paper demonstrate the remarkable effectiveness of the proposed solutions.

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来源期刊
CiteScore
4.10
自引率
5.90%
发文量
31
审稿时长
>12 weeks
期刊介绍: The journal covers all aspects of the theory, practice and operation of satellite systems and networks. Papers must address some aspect of satellite systems or their applications. Topics covered include: -Satellite communication and broadcast systems- Satellite navigation and positioning systems- Satellite networks and networking- Hybrid systems- Equipment-earth stations/terminals, payloads, launchers and components- Description of new systems, operations and trials- Planning and operations- Performance analysis- Interoperability- Propagation and interference- Enabling technologies-coding/modulation/signal processing, etc.- Mobile/Broadcast/Navigation/fixed services- Service provision, marketing, economics and business aspects- Standards and regulation- Network protocols
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