Wireless information-theoretic security for moving users in autonomic networks

Theofilos Chrysikos; Tasos Dagiuklas; Stavros Kotsopoulos

doi:10.1109/WD.2010.5657706

Wireless information-theoretic security for moving users in autonomic networks

Theofilos Chrysikos, Tasos Dagiuklas, Stavros Kotsopoulos

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Citations (Scopus)

Abstract

This paper studies Wireless Information-Theoretic Security for low-speed mobility in autonomic networks. More specifically, the impact of user movement on the Probability of Non-Zero Secrecy Capacity and Outage Secrecy Capacity for different channel conditions has been investigated. This is accomplished by establishing a link between different user locations and the boundaries of information-theoretic secure communication. Human mobility scenarios are considered, and its impact on physical layer security is examined, considering quasi-static Rayleigh channels for the fading phenomena. Simulation results have shown that the Secrecy Capacity depends on the relative distance of legitimate and illegitimate (eavesdropper) users in reference to the given transmitter.

Original language	English
Title of host publication	2010 IFIP Wireless Days, WD 2010
DOIs	https://doi.org/10.1109/WD.2010.5657706
Publication status	Published - 2010
Externally published	Yes
Event	2010 IFIP Wireless Days, WD 2010 - Venice, Italy Duration: 20 Oct 2010 → 22 Oct 2010

Publication series

Name	2010 IFIP Wireless Days, WD 2010

Conference

Conference	2010 IFIP Wireless Days, WD 2010
Country/Territory	Italy
City	Venice
Period	20/10/10 → 22/10/10

Keywords

Autonomic networks
Physical layer
Rayleigh fading
Secrecy Capacity
Wireless Information-Theoretic Security

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10.1109/WD.2010.5657706

Cite this

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title = "Wireless information-theoretic security for moving users in autonomic networks",

abstract = "This paper studies Wireless Information-Theoretic Security for low-speed mobility in autonomic networks. More specifically, the impact of user movement on the Probability of Non-Zero Secrecy Capacity and Outage Secrecy Capacity for different channel conditions has been investigated. This is accomplished by establishing a link between different user locations and the boundaries of information-theoretic secure communication. Human mobility scenarios are considered, and its impact on physical layer security is examined, considering quasi-static Rayleigh channels for the fading phenomena. Simulation results have shown that the Secrecy Capacity depends on the relative distance of legitimate and illegitimate (eavesdropper) users in reference to the given transmitter.",

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author = "Theofilos Chrysikos and Tasos Dagiuklas and Stavros Kotsopoulos",

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doi = "10.1109/WD.2010.5657706",

language = "English",

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AU - Dagiuklas, Tasos

AU - Kotsopoulos, Stavros

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N2 - This paper studies Wireless Information-Theoretic Security for low-speed mobility in autonomic networks. More specifically, the impact of user movement on the Probability of Non-Zero Secrecy Capacity and Outage Secrecy Capacity for different channel conditions has been investigated. This is accomplished by establishing a link between different user locations and the boundaries of information-theoretic secure communication. Human mobility scenarios are considered, and its impact on physical layer security is examined, considering quasi-static Rayleigh channels for the fading phenomena. Simulation results have shown that the Secrecy Capacity depends on the relative distance of legitimate and illegitimate (eavesdropper) users in reference to the given transmitter.

AB - This paper studies Wireless Information-Theoretic Security for low-speed mobility in autonomic networks. More specifically, the impact of user movement on the Probability of Non-Zero Secrecy Capacity and Outage Secrecy Capacity for different channel conditions has been investigated. This is accomplished by establishing a link between different user locations and the boundaries of information-theoretic secure communication. Human mobility scenarios are considered, and its impact on physical layer security is examined, considering quasi-static Rayleigh channels for the fading phenomena. Simulation results have shown that the Secrecy Capacity depends on the relative distance of legitimate and illegitimate (eavesdropper) users in reference to the given transmitter.

KW - Autonomic networks

KW - Physical layer

KW - Rayleigh fading

KW - Secrecy Capacity

KW - Wireless Information-Theoretic Security

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DO - 10.1109/WD.2010.5657706

M3 - Conference contribution

AN - SCOPUS:78249238952

SN - 9781424492299

T3 - 2010 IFIP Wireless Days, WD 2010

BT - 2010 IFIP Wireless Days, WD 2010

T2 - 2010 IFIP Wireless Days, WD 2010

Y2 - 20 October 2010 through 22 October 2010

ER -

Wireless information-theoretic security for moving users in autonomic networks

Abstract

Publication series

Conference

Keywords

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