窃听者随机分布SWIPT-NOMA系统的物理层安全

丁一凡; 李光球; 李辉

doi:10.11959/j.issn.1000-0801.2022059

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窃听者随机分布SWIPT-NOMA系统的物理层安全

研究与开发 | 更新时间：2024-06-05

- 窃听者随机分布SWIPT-NOMA系统的物理层安全
- Physical layer security for SWIPT-NOMA system in presence of randomly located eavesdroppers
- 电信科学 2022年38卷第3期页码：133-142
- 作者机构：
- 作者简介：
  
  [ "丁一凡（1996- ），男，杭州电子科技大学通信工程学院硕士生，主要研究方向为无线通信" ]
  [ "李光球（1966- ），男，博士，杭州电子科技大学通信工程学院教授，主要研究方向为无线通信、信息论与编码" ]
  [ "李辉（1996- ），男，杭州电子科技大学通信工程学院硕士生，主要研究方向为无线通信" ]
- 基金信息：
- DOI：10.11959/j.issn.1000-0801.2022059
  中图分类号： TN918.1
- 网络出版日期：2022-03，
  
  纸质出版日期：2022-03-20
- 稿件说明：
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丁一凡, 李光球, 李辉. 窃听者随机分布SWIPT-NOMA系统的物理层安全[J]. 电信科学, 2022,38(3):133-142.

Yifan DING, Guangqiu LI, Hui LI. Physical layer security for SWIPT-NOMA system in presence of randomly located eavesdroppers[J]. Telecommunications science, 2022, 38(3): 133-142.
丁一凡, 李光球, 李辉. 窃听者随机分布SWIPT-NOMA系统的物理层安全[J]. 电信科学, 2022,38(3):133-142. DOI： 10.11959/j.issn.1000-0801.2022059.

Yifan DING, Guangqiu LI, Hui LI. Physical layer security for SWIPT-NOMA system in presence of randomly located eavesdroppers[J]. Telecommunications science, 2022, 38(3): 133-142. DOI： 10.11959/j.issn.1000-0801.2022059.

摘要

非正交多址接入（non-orthogonal multiple access，NOMA）与无线携能通信（simultaneous wireless information and power transfer，SWIPT）技术的组合可提高无线系统的频谱效率，并能够解决用户节点的电能供应问题。然而，当能量收集器要恶意窃听基站发送的机密信息时，SWIPT-NOMA系统的信息安全传输会受到威胁，为增强其物理层安全（physical layer security，PLS）性能，提出了一种采用发射天线选择和功率分割策略的SWIPT-NOMA系统PLS模型。如果各能量收集器的空间位置随机分布服从泊松点过程，利用空间泊松分布生成函数推导SWIPT-NOMA系统的安全中断概率和非零安全容量概率近似表达式。数值计算与仿真结果表明，所推导的表达式具有很高的准确性，且可用于研究窃听者密度、基站与远近端信息接收者之间的距离、基站发射天线数以及功率分割因子等参数对SWIPT-NOMA系统PLS性能的影响。

Abstract

The combination of non-orthogonal multiple access (NOMA) and simultaneous wireless information and power transfer (SWIPT) technologies can improve spectrum efficiency of wireless system and solve the power supply problem of user nodes.However

when energy-harvesting receivers want to maliciously eavesdrop on confidential information sent by the base station

the information security transmission of SWIPT-NOMA system will be threatened.To enhance its physical layer security (PLS) performance

the PLS model of SWIPT-NOMA system with transmit antenna selection and power split strategies was proposed.When the spatial location randomly distributed energy-harvesting receivers obey the Poisson point process

the approximate expressions for the secrecy outage probability and non-zero secrecy capacity probability of SWIPT-NOMA system were derived by using the spatial Poisson probability generation function.Numerical and simulation results verify the accuracy of the expressions.The above expressions can also be used to study the influence of eavesdropper density

the distance between the base station and the far and near information receivers

the number of transmitting antennas and the power split factor on PLS performance of SWIPT-NOMA system.

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references

DING Z G , LEI X F , KARAGIANNIDISG K , et al . A survey on non-orthogonal multiple access for 5G networks:research challenges and future trends [J ] . IEEE Journal on Selected Areas in Communications , 2017 , 35 ( 10 ): 2181 - 2195 .

CHEN X M , ZHANG Z Y , ZHONG C J , et al . Exploiting multiple-antenna techniques for non-orthogonal multiple access [J ] . IEEE Journal on Selected Areas in Communications , 2017 , 35 ( 10 ): 2207 - 2220 .

GAU R H , CHIU H T , LIAO C H , et al . Optimal power control for NOMA wireless networks with relays [J ] . IEEE Wireless Communications Letters , 2018 , 7 ( 1 ): 22 - 25 .

PONNIMBADUGE PERERA T D , JAYAKODY D N K , SHARMA S K , et al . Simultaneous wireless information and power transfer (SWIPT):recent advances and future challenges [J ] . IEEE Communications Surveys ＆ Tutorials , 2018 , 20 ( 1 ): 264 - 302 .

YUAN Y , XU Y Q , YANG Z , et al . Energy efficiency optimization in full-duplex user-aided cooperative SWIPT NOMA systems [J ] . IEEE Transactions on Communications , 2019 , 67 ( 8 ): 5753 - 5767 .

李陶深 , 宁倩丽 , 王哲 . SWIPT-NOMA机会协作系统的优化方案 [J ] . 通信学报 , 2020 , 41 ( 8 ): 141 - 154 .

LI T S , NING Q L , WANG Z . Optimization scheme for the SWIPT-NOMA opportunity cooperative system [J ] . Journal on Communications , 2020 , 41 ( 8 ): 141 - 154 .

LIU Y W , DING Z G , ELKASHLAN M , et al . Cooperative non-orthogonal multiple access with simultaneous wireless information and power transfer [J ] . IEEE Journal on Selected Areas in Communications , 2016 , 34 ( 4 ): 938 - 953 .

WU Y P , KHISTI A , XIAO C S , et al . A survey of physical layer security techniques for 5G wireless networks and challenges ahead [J ] . IEEE Journal on Selected Areas in Communications , 2018 , 36 ( 4 ): 679 - 695 .

CHEN G J , COON J P , DI RENZO M . Secrecy outage analysis for downlink transmissions in the presence of randomly located eavesdroppers [J ] . IEEE Transactions on Information Forensics and Security , 2017 , 12 ( 5 ): 1195 - 1206 .

ZHENG T X , WANG H M , YUAN J H , et al . Multi-antenna transmission with artificial noise against randomly distributed eavesdroppers [J ] . IEEE Transactions on Communications , 2015 , 63 ( 11 ): 4347 - 4362 .

LEI H J , ZHANG J M , PARK K H , et al . On secure NOMA systems with transmit antenna selection schemes [J ] . IEEE Access , 2017 , 5 : 17450 - 17464 .

SHIMK , OHH , DOTN , et al . A physical layer security-based transmit antenna selection scheme for NOMA systems [C ] // Proceedings of 2018 Tenth International Conference on Ubiquitous and Future Networks (ICUFN) . Piscataway:IEEE Press , 2018 : 597 - 602 .

李美玲 , 李莹 , Sami Muhaidat , 等 . 非理想干扰删除下全双工中继 NOMA 系统的物理层安全性能研究 [J ] . 电子学报 , 2019 , 47 ( 1 ): 183 - 189 .

LI M L , LI Y , MUHAIDAT S , et al . Physical layer security for NOMA-based full duplex relay networks with non-ideal interference cancellation [J ] . Acta Electronica Sinica , 2019 , 47 ( 1 ): 183 - 189 .

DENG D , LI C , FAN L S , et al . Impact of antenna selection on physical-layer security of NOMA networks [J ] . Wireless Communications and Mobile Computing , 2018 :2390834.

LIU Y W , QIN Z J , ELKASHLAN M , et al . Enhancing the physical layer security of non-orthogonal multiple access in large-scale networks [J ] . IEEE Transactions on Wireless Communications , 2017 , 16 ( 3 ): 1656 - 1672 .

ZHANG Y J , LIANG T . Secrecy wireless information and power transfer with transmit antenna selection in MISO systems [C ] // Proceedings of 2015 IEEE International Conference on Computer and Communications . Piscataway:IEEE Press , 2015 : 362 - 367 .

PAN G F , TANG C Q , LI T T , et al . Secrecy performance analysis for SIMO simultaneous wireless information and power transfer systems [J ] . IEEE Transactions on Communications , 2015 , 63 ( 9 ): 3423 - 3433 .

钱辉 , 李光球 , 丁一凡 . 随机位置窃听场景下SWIPT系统的物理层安全性能 [J ] . 电信科学 , 2020 , 36 ( 5 ): 65 - 72 .

QIAN H , LI G Q , DING Y F . Physical layer security performance of SWIPT system in the presence of randomly located eavesdroppers [J ] . Telecommunications Science , 2020 , 36 ( 5 ): 65 - 72 .

BADAWYA , SHAFIEAE . Securing OFDM-based NOMA SWIPT systems [J ] . IEEE Transactions on Vehicular Technology , 2020 , 69 ( 10 ): 12343 - 12347 .

SUN X L , YANG W W , CAI Y M . Secure communication in NOMA-assisted millimeter-wave SWIPT UAV networks [J ] . IEEE Internet of Things Journal , 2020 , 7 ( 3 ): 1884 - 1897 .

BAO H , ZHANG C X , WU L L , et al . Design of physical layer secure transmission scheme based on SWIPT NOMA systems [C ] // Proceedings of 2017 IEEE 17th International Conference on Communication Technology . Piscataway:IEEE Press , 2017 : 6 - 9 .

GRADSHTEYN I S , RYZHIK I M . Table of integrals,series and products [M ] . Pittsburgh : Academic Press , 2007 .

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