Secure Full-Duplex Small-Cell Networks in a Spectrum Sharing Environment

Nam Phong Nguyen, Chinmoy Kundu, Hien Quoc Ngo, Trung Q. Duong*, Berk Canberk

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

41 Citations (Scopus)

Abstract

In this paper, we propose three relay selection schemes for full-duplex heterogeneous networks in the presence of multiple cognitive radio eavesdroppers. In this setup, the cognitive small-cell nodes (secondary network) can share the spectrum licensed to the macro-cell system (primary network) on the condition that the quality-of-service of the primary network is always satisfied subjected to its outage probability constraint. The messages are delivered from one small-cell base station to the destination with the help of full-duplex small-cell base stations, which act as relay nodes. Based on the availability of the network's channel state information at the secondary information source, three different selection criteria for full-duplex relays, namely: 1) partial relay selection; 2) optimal relay selection; and 3) minimal self-interference relay selection, are proposed. We derive the exact closed-form and asymptotic expressions of the secrecy outage probability for the three criteria under the attack of non-colluding/colluding eavesdroppers. We demonstrate that the optimal relay selection scheme outperforms the partial relay selection and minimal self-interference relay selection schemes at the expense of acquiring full channel state information knowledge. In addition, increasing the number of the full-duplex small-cell base stations can improve the security performance. At the illegitimate side, deploying colluding eavesdroppers and increasing the number of eavesdroppers put the confidential information at a greater risk. Besides, the transmit power and the desire outage probability of the primary network have great influences on the secrecy outage probability of the secondary network.

Original languageEnglish
Article number7500135
Pages (from-to)3087-3099
Number of pages13
JournalIEEE Access
Volume4
DOIs
Publication statusPublished - 2016

Bibliographical note

Publisher Copyright:
© 2016 IEEE.

Keywords

  • cognitive radio networks
  • colluding eavesdroppers
  • decode-and-forward
  • full-duplex
  • Physical layer security
  • relay selection

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