The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Dalam makalah ini, kami menyiasat skim pemilihan berbilang geganti dan jammer (JMRJS) bersama bersama baru untuk meningkatkan keselamatan lapisan fizikal rangkaian wayarles. Dalam skema JMRJS, semua geganti yang berjaya dalam penyahkodan sumber dipilih untuk membantu dalam penghantaran isyarat sumber dan sementara itu, semua nod geganti yang tinggal digunakan untuk bertindak sebagai pengacau mesra untuk mengganggu penyiar dengan menyiarkan bunyi buatan. Berdasarkan saluran pudar Nakagami-m yang lebih umum, kami menganalisis prestasi keselamatan skim JMRJS untuk melindungi isyarat sumber daripada mencuri dengar. Ungkapan bentuk tertutup tepat bagi kebarangkalian gangguan (OP) dan kebarangkalian pintasan (IP) untuk skim JMRJS ke atas saluran pudar Nakagami-m diperolehi. Selain itu, kami menganalisis pertukaran kebolehpercayaan keselamatan (SRT) skim ini. Keputusan simulasi menunjukkan bahawa apabila bilangan nod geganti nyahkod dan ke hadapan (DF) meningkat, SRT skim JMRJS bertambah baik dengan ketara. Dan apabila kuasa hantaran berada di bawah nilai tertentu, SRT skim JMRJS secara konsisten mengatasi skema geganti tunggal dan pemilihan jammer (JSRJS) bersama dan skema pemilihan geganti sama dan jammer (JERJS) bersama. Di samping itu, SRT skim ini sentiasa lebih baik daripada skim pemilihan berbilang geganti (MRS).
Guangna ZHANG
Army Engineering University of PLA
Yuanyuan GAO
Army Engineering University of PLA
Huadong LUO
Army Engineering University of PLA
Nan SHA
Army Engineering University of PLA
Mingxi GUO
Army Engineering University of PLA
Kui XU
Army Engineering University of PLA
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Salinan
Guangna ZHANG, Yuanyuan GAO, Huadong LUO, Nan SHA, Mingxi GUO, Kui XU, "Security Performance Analysis of Joint Multi-Relay and Jammer Selection for Physical-Layer Security under Nakagami-m Fading Channel" in IEICE TRANSACTIONS on Fundamentals,
vol. E102-A, no. 12, pp. 2015-2020, December 2019, doi: 10.1587/transfun.E102.A.2015.
Abstract: In this paper, we investigate a novel joint multi-relay and jammer selection (JMRJS) scheme in order to improve the physical layer security of wireless networks. In the JMRJS scheme, all the relays succeeding in source decoding are selected to assist in the source signal transmission and meanwhile, all the remaining relay nodes are employed to act as friendly jammers to disturb the eavesdroppers by broadcasting artificial noise. Based on the more general Nakagami-m fading channel, we analyze the security performance of the JMRJS scheme for protecting the source signal against eavesdropping. The exact closed-form expressions of outage probability (OP) and intercept probability (IP) for the JMRJS scheme over Nakagami-m fading channel are derived. Moreover, we analyze the security-reliability tradeoff (SRT) of this scheme. Simulation results show that as the number of decode-and-forward (DF)relay nodes increases, the SRT of the JMRJS scheme improves notably. And when the transmit power is below a certain value, the SRT of the JMRJS scheme consistently outperforms the joint single-relay and jammer selection (JSRJS) scheme and joint equal-relay and jammer selection (JERJS) scheme respectively. In addition, the SRT of this scheme is always better than that of the multi-relay selection (MRS) scheme.
URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/transfun.E102.A.2015/_p
Salinan
@ARTICLE{e102-a_12_2015,
author={Guangna ZHANG, Yuanyuan GAO, Huadong LUO, Nan SHA, Mingxi GUO, Kui XU, },
journal={IEICE TRANSACTIONS on Fundamentals},
title={Security Performance Analysis of Joint Multi-Relay and Jammer Selection for Physical-Layer Security under Nakagami-m Fading Channel},
year={2019},
volume={E102-A},
number={12},
pages={2015-2020},
abstract={In this paper, we investigate a novel joint multi-relay and jammer selection (JMRJS) scheme in order to improve the physical layer security of wireless networks. In the JMRJS scheme, all the relays succeeding in source decoding are selected to assist in the source signal transmission and meanwhile, all the remaining relay nodes are employed to act as friendly jammers to disturb the eavesdroppers by broadcasting artificial noise. Based on the more general Nakagami-m fading channel, we analyze the security performance of the JMRJS scheme for protecting the source signal against eavesdropping. The exact closed-form expressions of outage probability (OP) and intercept probability (IP) for the JMRJS scheme over Nakagami-m fading channel are derived. Moreover, we analyze the security-reliability tradeoff (SRT) of this scheme. Simulation results show that as the number of decode-and-forward (DF)relay nodes increases, the SRT of the JMRJS scheme improves notably. And when the transmit power is below a certain value, the SRT of the JMRJS scheme consistently outperforms the joint single-relay and jammer selection (JSRJS) scheme and joint equal-relay and jammer selection (JERJS) scheme respectively. In addition, the SRT of this scheme is always better than that of the multi-relay selection (MRS) scheme.},
keywords={},
doi={10.1587/transfun.E102.A.2015},
ISSN={1745-1337},
month={December},}
Salinan
TY - JOUR
TI - Security Performance Analysis of Joint Multi-Relay and Jammer Selection for Physical-Layer Security under Nakagami-m Fading Channel
T2 - IEICE TRANSACTIONS on Fundamentals
SP - 2015
EP - 2020
AU - Guangna ZHANG
AU - Yuanyuan GAO
AU - Huadong LUO
AU - Nan SHA
AU - Mingxi GUO
AU - Kui XU
PY - 2019
DO - 10.1587/transfun.E102.A.2015
JO - IEICE TRANSACTIONS on Fundamentals
SN - 1745-1337
VL - E102-A
IS - 12
JA - IEICE TRANSACTIONS on Fundamentals
Y1 - December 2019
AB - In this paper, we investigate a novel joint multi-relay and jammer selection (JMRJS) scheme in order to improve the physical layer security of wireless networks. In the JMRJS scheme, all the relays succeeding in source decoding are selected to assist in the source signal transmission and meanwhile, all the remaining relay nodes are employed to act as friendly jammers to disturb the eavesdroppers by broadcasting artificial noise. Based on the more general Nakagami-m fading channel, we analyze the security performance of the JMRJS scheme for protecting the source signal against eavesdropping. The exact closed-form expressions of outage probability (OP) and intercept probability (IP) for the JMRJS scheme over Nakagami-m fading channel are derived. Moreover, we analyze the security-reliability tradeoff (SRT) of this scheme. Simulation results show that as the number of decode-and-forward (DF)relay nodes increases, the SRT of the JMRJS scheme improves notably. And when the transmit power is below a certain value, the SRT of the JMRJS scheme consistently outperforms the joint single-relay and jammer selection (JSRJS) scheme and joint equal-relay and jammer selection (JERJS) scheme respectively. In addition, the SRT of this scheme is always better than that of the multi-relay selection (MRS) scheme.
ER -