Interference alignment for secrecy

O. Ozan Koyluoglu; Hesham El Gamal; Lifeng Lai; H. Vincent Poor

doi:10.1109/TIT.2011.2132430

Interference alignment for secrecy

O. Ozan Koyluoglu
, Hesham El Gamal
, Lifeng Lai
, H. Vincent Poor

Electrical and Computer Engr

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

130 Scopus citations

Abstract

This paper studies the frequency/time selective K-user Gaussian interference channel with secrecy constraints. Two distinct models, namely the interference channel with confidential messages and the interference channel with an external eavesdropper, are analyzed. The key difference between the two models is the lack of channel state information (CSI) of the external eavesdropper. Using interference alignment along with secrecy precoding, it is shown that each user can achieve non-zero secure degrees of freedom (DoF) for both cases. More precisely, the proposed coding scheme achieves K-2/2K-2 secure DoF with probability one per user in the confidential messages model. For the external eavesdropper scenario, on the other hand, it is shown that each user can achieve K-2/2K secure DoF in the ergodic setting. Remarkably, these results establish the positive impact of interference on the secrecy capacity region of wireless networks.

Original language	English (US)
Article number	5773067
Pages (from-to)	3323-3332
Number of pages	10
Journal	IEEE Transactions on Information Theory
Volume	57
Issue number	6
DOIs	https://doi.org/10.1109/TIT.2011.2132430
State	Published - Jun 2011

Keywords

Information theoretic security
interference alignment
interference channel
secure degrees of freedom

ASJC Scopus subject areas

Information Systems
Computer Science Applications
Library and Information Sciences

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10.1109/TIT.2011.2132430

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title = "Interference alignment for secrecy",

abstract = "This paper studies the frequency/time selective K-user Gaussian interference channel with secrecy constraints. Two distinct models, namely the interference channel with confidential messages and the interference channel with an external eavesdropper, are analyzed. The key difference between the two models is the lack of channel state information (CSI) of the external eavesdropper. Using interference alignment along with secrecy precoding, it is shown that each user can achieve non-zero secure degrees of freedom (DoF) for both cases. More precisely, the proposed coding scheme achieves K-2/2K-2 secure DoF with probability one per user in the confidential messages model. For the external eavesdropper scenario, on the other hand, it is shown that each user can achieve K-2/2K secure DoF in the ergodic setting. Remarkably, these results establish the positive impact of interference on the secrecy capacity region of wireless networks.",

keywords = "Information theoretic security, interference alignment, interference channel, secure degrees of freedom",

author = "Koyluoglu, \{O. Ozan\} and \{El Gamal\}, Hesham and Lifeng Lai and Poor, \{H. Vincent\}",

note = "Funding Information: Manuscript received October 07, 2008; revised July 19, 2009; accepted August 26, 2010. Date of current version May 25, 2011. This work was supported in part by the National Science Foundation under Grants CCF-07-28762 and CNS-09-05398, in part by the Los Alamos National Laboratory, and in part by the Qatar National Research Fund. The material in this paper was presented at the 2008 IEEE International Symposium on Information Theory, Toronto, ON, Canada.",

year = "2011",

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doi = "10.1109/TIT.2011.2132430",

language = "English (US)",

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AU - Poor, H. Vincent

N1 - Funding Information: Manuscript received October 07, 2008; revised July 19, 2009; accepted August 26, 2010. Date of current version May 25, 2011. This work was supported in part by the National Science Foundation under Grants CCF-07-28762 and CNS-09-05398, in part by the Los Alamos National Laboratory, and in part by the Qatar National Research Fund. The material in this paper was presented at the 2008 IEEE International Symposium on Information Theory, Toronto, ON, Canada.

PY - 2011/6

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N2 - This paper studies the frequency/time selective K-user Gaussian interference channel with secrecy constraints. Two distinct models, namely the interference channel with confidential messages and the interference channel with an external eavesdropper, are analyzed. The key difference between the two models is the lack of channel state information (CSI) of the external eavesdropper. Using interference alignment along with secrecy precoding, it is shown that each user can achieve non-zero secure degrees of freedom (DoF) for both cases. More precisely, the proposed coding scheme achieves K-2/2K-2 secure DoF with probability one per user in the confidential messages model. For the external eavesdropper scenario, on the other hand, it is shown that each user can achieve K-2/2K secure DoF in the ergodic setting. Remarkably, these results establish the positive impact of interference on the secrecy capacity region of wireless networks.

AB - This paper studies the frequency/time selective K-user Gaussian interference channel with secrecy constraints. Two distinct models, namely the interference channel with confidential messages and the interference channel with an external eavesdropper, are analyzed. The key difference between the two models is the lack of channel state information (CSI) of the external eavesdropper. Using interference alignment along with secrecy precoding, it is shown that each user can achieve non-zero secure degrees of freedom (DoF) for both cases. More precisely, the proposed coding scheme achieves K-2/2K-2 secure DoF with probability one per user in the confidential messages model. For the external eavesdropper scenario, on the other hand, it is shown that each user can achieve K-2/2K secure DoF in the ergodic setting. Remarkably, these results establish the positive impact of interference on the secrecy capacity region of wireless networks.

KW - Information theoretic security

KW - interference alignment

KW - interference channel

KW - secure degrees of freedom

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JO - IEEE Transactions on Information Theory

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ER -

Interference alignment for secrecy

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Keywords

ASJC Scopus subject areas

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