Generalized tag-based physical-layer authentication under frequency selective fading channels
Physical Layer Authentication (PLA) in wireless systems has drawn much attention because it can provide information-theoretic security. However, the performance of the prior PLA schemes significantly declines under a frequency selective fading channel and the theoretical analysis of a PLA scheme bec...
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sg-ntu-dr.10356-1720742023-11-21T05:43:30Z Generalized tag-based physical-layer authentication under frequency selective fading channels Tan, Haijun Xie, Ning Lu, Jian Niyato, Dusit School of Computer Science and Engineering Engineering::Computer science and engineering Physical Layer Authentication Frequency Selective Fading Channel Physical Layer Authentication (PLA) in wireless systems has drawn much attention because it can provide information-theoretic security. However, the performance of the prior PLA schemes significantly declines under a frequency selective fading channel and the theoretical analysis of a PLA scheme becomes extremely challenging under a frequency selective fading channel as compared to that under a frequency flat fading channel. This paper addresses the problem of authenticating transmitters at the physical layer under a frequency selective fading channel. We propose two tag-based PLA schemes under a frequency selective fading channel. The first scheme is the Generalized Tag-based PLA (GT-PLA) scheme, where the negative effect caused by a frequency selective fading channel is compensated for. If the channel reciprocity holds, we will propose the second scheme to further improve the performance of the GT-PLA scheme, named the Adaptive Generalized Tag-based PLA (AGT-PLA) scheme. We provide the theoretical analysis of both proposed schemes over wireless fading channels in terms of robustness, security, and compatibility, and derive their closed-form expressions. Moreover, we implement the proposed schemes and conduct extensive performance comparisons. Our experimental results demonstrate that the GT-PLA scheme achieves higher robustness over the prior PLA schemes while the AGT-PLA scheme can further improve the performance of the GT-PLA scheme in terms of robustness, security, and compatibility. This work was partially supported by the National Key R&D Project of China (No. 2020YFB1805404), Natural Science Foundation of China (No. 61972262 and No. U21A20455), Natural Science Foundation of Guangdong, China (No. 2021A1515011344), Key Project of Education Ministry of Guangdong Province (No. 2021ZDZX3001), and Fundamental Research Programs of Shenzhen City (No. JCYJ20210324093809024). 2023-11-21T05:27:58Z 2023-11-21T05:27:58Z 2023 Journal Article Tan, H., Xie, N., Lu, J. & Niyato, D. (2023). Generalized tag-based physical-layer authentication under frequency selective fading channels. IEEE Transactions On Communications, 71(5), 2876-2890. https://dx.doi.org/10.1109/TCOMM.2023.3251363 0090-6778 https://hdl.handle.net/10356/172074 10.1109/TCOMM.2023.3251363 2-s2.0-85149407353 5 71 2876 2890 en IEEE Transactions on Communications © 2023 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Physical Layer Authentication Frequency Selective Fading Channel |
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Engineering::Computer science and engineering Physical Layer Authentication Frequency Selective Fading Channel Tan, Haijun Xie, Ning Lu, Jian Niyato, Dusit Generalized tag-based physical-layer authentication under frequency selective fading channels |
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Physical Layer Authentication (PLA) in wireless systems has drawn much attention because it can provide information-theoretic security. However, the performance of the prior PLA schemes significantly declines under a frequency selective fading channel and the theoretical analysis of a PLA scheme becomes extremely challenging under a frequency selective fading channel as compared to that under a frequency flat fading channel. This paper addresses the problem of authenticating transmitters at the physical layer under a frequency selective fading channel. We propose two tag-based PLA schemes under a frequency selective fading channel. The first scheme is the Generalized Tag-based PLA (GT-PLA) scheme, where the negative effect caused by a frequency selective fading channel is compensated for. If the channel reciprocity holds, we will propose the second scheme to further improve the performance of the GT-PLA scheme, named the Adaptive Generalized Tag-based PLA (AGT-PLA) scheme. We provide the theoretical analysis of both proposed schemes over wireless fading channels in terms of robustness, security, and compatibility, and derive their closed-form expressions. Moreover, we implement the proposed schemes and conduct extensive performance comparisons. Our experimental results demonstrate that the GT-PLA scheme achieves higher robustness over the prior PLA schemes while the AGT-PLA scheme can further improve the performance of the GT-PLA scheme in terms of robustness, security, and compatibility. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Tan, Haijun Xie, Ning Lu, Jian Niyato, Dusit |
| format |
Article |
| author |
Tan, Haijun Xie, Ning Lu, Jian Niyato, Dusit |
| author_sort |
Tan, Haijun |
| title |
Generalized tag-based physical-layer authentication under frequency selective fading channels |
| title_short |
Generalized tag-based physical-layer authentication under frequency selective fading channels |
| title_full |
Generalized tag-based physical-layer authentication under frequency selective fading channels |
| title_fullStr |
Generalized tag-based physical-layer authentication under frequency selective fading channels |
| title_full_unstemmed |
Generalized tag-based physical-layer authentication under frequency selective fading channels |
| title_sort |
generalized tag-based physical-layer authentication under frequency selective fading channels |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172074 |
| _version_ |
1783955598589558784 |