Authentication in millimeter-wave body-centric networks through wireless channel characterization

Nan Zhao; Zhiya Zhang; Masood Ur-Rehman; Aifeng Ren; Xiaodong Yang; Jianxun Zhao; Wei Zhao; Binbin Dong

doi:10.1109/TAP.2017.2681462

Authentication in millimeter-wave body-centric networks through wireless channel characterization

Nan Zhao
, Zhiya Zhang
, Masood Ur-Rehman
, Aifeng Ren
, Xiaodong Yang
, Jianxun Zhao
, Wei Zhao
, Binbin Dong

Institute for Research in Applicable Computing (IRAC)

Xidian University

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

2 Downloads (Pure)

Abstract

Advent of 5G technologies has ensued in massive growth of body-centric communications (BCC), especially at millimeter-wave frequencies. As a result, the portable/handheld terminals are becoming more and more “intelligent” but not without the cost of being less secure. Improved authentication measures need to be explored, as effective identity authentication is the first level of security in these devices. This paper presents a novel keyless authentication method exploiting wireless channel characteristics. Human palm has distinct transmission coefficient (S21) for each of the users and is used for in-vivo fingerprint identification in this work. A detailed channel modeling using data acquisition from real environment and empirical approach is adopted to evaluate the usability of this method. The results show that this method can provide a secure operation for the millimeter-wave 5G BCCs.

Original language	English
Pages (from-to)	6616-6623
Journal	IEEE Transactions on Antennas and Propagation
Volume	65
Issue number	12
DOIs	https://doi.org/10.1109/TAP.2017.2681462
Publication status	Published - 13 Nov 2017

Keywords

5G mobile communication
Body-centric Networks
Natural science and engineering
Security
authentication

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10.1109/TAP.2017.2681462

PublishedAccepted author manuscript, 1.12 MBLicence: CC BY-NC-ND

http://ieeexplore.ieee.org/abstract/document/7875419/

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title = "Authentication in millimeter-wave body-centric networks through wireless channel characterization",

abstract = "Advent of 5G technologies has ensued in massive growth of body-centric communications (BCC), especially at millimeter-wave frequencies. As a result, the portable/handheld terminals are becoming more and more “intelligent” but not without the cost of being less secure. Improved authentication measures need to be explored, as effective identity authentication is the first level of security in these devices. This paper presents a novel keyless authentication method exploiting wireless channel characteristics. Human palm has distinct transmission coefficient (S21) for each of the users and is used for in-vivo fingerprint identification in this work. A detailed channel modeling using data acquisition from real environment and empirical approach is adopted to evaluate the usability of this method. The results show that this method can provide a secure operation for the millimeter-wave 5G BCCs.",

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author = "Nan Zhao and Zhiya Zhang and Masood Ur-Rehman and Aifeng Ren and Xiaodong Yang and Jianxun Zhao and Wei Zhao and Binbin Dong",

year = "2017",

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language = "English",

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AU - Zhao, Nan

AU - Zhang, Zhiya

AU - Ur-Rehman, Masood

AU - Ren, Aifeng

AU - Yang, Xiaodong

AU - Zhao, Jianxun

AU - Zhao, Wei

AU - Dong, Binbin

PY - 2017/11/13

Y1 - 2017/11/13

N2 - Advent of 5G technologies has ensued in massive growth of body-centric communications (BCC), especially at millimeter-wave frequencies. As a result, the portable/handheld terminals are becoming more and more “intelligent” but not without the cost of being less secure. Improved authentication measures need to be explored, as effective identity authentication is the first level of security in these devices. This paper presents a novel keyless authentication method exploiting wireless channel characteristics. Human palm has distinct transmission coefficient (S21) for each of the users and is used for in-vivo fingerprint identification in this work. A detailed channel modeling using data acquisition from real environment and empirical approach is adopted to evaluate the usability of this method. The results show that this method can provide a secure operation for the millimeter-wave 5G BCCs.

AB - Advent of 5G technologies has ensued in massive growth of body-centric communications (BCC), especially at millimeter-wave frequencies. As a result, the portable/handheld terminals are becoming more and more “intelligent” but not without the cost of being less secure. Improved authentication measures need to be explored, as effective identity authentication is the first level of security in these devices. This paper presents a novel keyless authentication method exploiting wireless channel characteristics. Human palm has distinct transmission coefficient (S21) for each of the users and is used for in-vivo fingerprint identification in this work. A detailed channel modeling using data acquisition from real environment and empirical approach is adopted to evaluate the usability of this method. The results show that this method can provide a secure operation for the millimeter-wave 5G BCCs.

KW - 5G mobile communication

KW - Body-centric Networks

KW - Natural science and engineering

KW - Security

KW - authentication

U2 - 10.1109/TAP.2017.2681462

DO - 10.1109/TAP.2017.2681462

M3 - Article

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JO - IEEE Transactions on Antennas and Propagation

JF - IEEE Transactions on Antennas and Propagation

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ER -

Authentication in millimeter-wave body-centric networks through wireless channel characterization

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Keywords

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