DocumentCode
1859483
Title
Secrecy capacity of a class of orthogonal relay eavesdropper channels
Author
Aggarwal, Vaneet ; Sankar, Lalitha ; Calderbank, A. Robert ; Poor, H. Vincent
Author_Institution
Dept. of Electr. Eng., Princeton Univ., Princeton, NJ
fYear
2009
fDate
8-13 Feb. 2009
Firstpage
295
Lastpage
300
Abstract
The secrecy capacity is developed for a class of relay channels with orthogonal components and a passive eavesdropper node. The relay and destination receive signals from the source on two orthogonal channels such that the destination also receives transmissions from the relay on its channel. The eavesdropper can overhear either one or both of the orthogonal channels. Inner and outer bounds on the secrecy capacity are developed for both the discrete memoryless and the Gaussian channel models. For the discrete memoryless case, the secrecy capacity is shown to be achieved by a partial decode-and-forward (PDF) scheme when the eavesdropper can overhear only one of the two orthogonal channels. Two new outer bounds are presented for the Gaussian model using recent capacity results for a Gaussian multi-antenna channel with a multi-antenna eavesdropper. The outer bounds are shown to be tight for two sub-classes of channels. The first sub-class is one in which the source and relay are clustered and the eavesdropper overhears on only one of the two channels for which the PDF strategy is optimal. The second is a sub-class in which the source does not transmit to the relay for which a noise-forwarding strategy is optimal.
Keywords
Gaussian channels; antenna arrays; channel capacity; channel coding; decoding; memoryless systems; telecommunication security; wireless channels; Gaussian multi antenna channel model; discrete memoryless model; orthogonal relay eavesdropper secrecy channel capacity; partial decode-and-forward scheme; Broadcasting; Cryptographic protocols; Cryptography; Decoding; Degradation; Gaussian channels; Privacy; Relays; Wireless application protocol; Wireless networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Information Theory and Applications Workshop, 2009
Conference_Location
San Diego, CA
Print_ISBN
978-1-4244-3990-4
Type
conf
DOI
10.1109/ITA.2009.5044960
Filename
5044960
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