Physical layer anonymous precoding: The path to privacy-preserving communications
Physical layer anonymous precoding: The path to privacy-preserving communications
Next-generation systems aim to increase both the speed and responsiveness of wireless communications while supporting compelling applications such as edge-cloud computing, remote health, vehicle-to-infrastructure communications, etc. As these applications are expected to carry confidential personal data, ensuring user privacy becomes a critical issue. In contrast to traditional security and privacy designs that aim to prevent confidential information from being eavesdropped upon by adversaries, or learned by unauthorized parties, in this article we consider designs that mask the user's identity during communication, resulting in anonymous communications. In particular, we examine the recent interest in physical layer (PHY) anonymous solutions. This line of research departs from conventional higher layer anonymous authentication/encryption and routing protocols, and judiciously manipulates the signaling pattern of transmitted signals in order to mask the sender's PHY characteristics. We first discuss the concept of anonymity at the PHY, then illustrate a strategy that is able to unmask the sender's identity by analyzing his/her PHY information only - that is, signalling patterns and the inherent fading characteristics. Subsequently, we review the emerging area of anonymous precoding to preserve the sender's anonymity while ensuring high receiver-side signal-to-interference-plus-noise ratio for communication. This family of anonymous precoding designs represents a new approach to providing anonymity at the PHY, introducing a new dimension for privacy-preserving techniques.
154-160
Wei, Zhongxiang
94bfc1c5-4c05-4c8c-b66d-2582f5c3ee57
Masouros, Christos
f7d74183-a31b-412e-8a75-1a942aa156d8
Poor, H. Vincent
ace801ca-0c45-451f-9509-217ea29e32e1
Petropulu, Athina P.
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Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
1 April 2022
Wei, Zhongxiang
94bfc1c5-4c05-4c8c-b66d-2582f5c3ee57
Masouros, Christos
f7d74183-a31b-412e-8a75-1a942aa156d8
Poor, H. Vincent
ace801ca-0c45-451f-9509-217ea29e32e1
Petropulu, Athina P.
24f3f757-efd1-40e5-9240-a774889f1d7f
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Wei, Zhongxiang, Masouros, Christos, Poor, H. Vincent, Petropulu, Athina P. and Hanzo, Lajos
(2022)
Physical layer anonymous precoding: The path to privacy-preserving communications.
IEEE Wireless Communications, 29 (2), .
(doi:10.1109/MWC.103.2100283).
Abstract
Next-generation systems aim to increase both the speed and responsiveness of wireless communications while supporting compelling applications such as edge-cloud computing, remote health, vehicle-to-infrastructure communications, etc. As these applications are expected to carry confidential personal data, ensuring user privacy becomes a critical issue. In contrast to traditional security and privacy designs that aim to prevent confidential information from being eavesdropped upon by adversaries, or learned by unauthorized parties, in this article we consider designs that mask the user's identity during communication, resulting in anonymous communications. In particular, we examine the recent interest in physical layer (PHY) anonymous solutions. This line of research departs from conventional higher layer anonymous authentication/encryption and routing protocols, and judiciously manipulates the signaling pattern of transmitted signals in order to mask the sender's PHY characteristics. We first discuss the concept of anonymity at the PHY, then illustrate a strategy that is able to unmask the sender's identity by analyzing his/her PHY information only - that is, signalling patterns and the inherent fading characteristics. Subsequently, we review the emerging area of anonymous precoding to preserve the sender's anonymity while ensuring high receiver-side signal-to-interference-plus-noise ratio for communication. This family of anonymous precoding designs represents a new approach to providing anonymity at the PHY, introducing a new dimension for privacy-preserving techniques.
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More information
Accepted/In Press date: 11 September 2021
Published date: 1 April 2022
Additional Information:
Funding Information:
This work was partially supported by the National Natural Science Foundation of China, grant number 6210138
Publisher Copyright:
© 2002-2012 IEEE.
Identifiers
Local EPrints ID: 451446
URI: http://eprints.soton.ac.uk/id/eprint/451446
ISSN: 1536-1284
PURE UUID: 3cb65c0e-d246-4a95-b940-5527116194bd
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Date deposited: 28 Sep 2021 16:34
Last modified: 18 Mar 2024 02:36
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Contributors
Author:
Zhongxiang Wei
Author:
Christos Masouros
Author:
H. Vincent Poor
Author:
Athina P. Petropulu
Author:
Lajos Hanzo
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