1 research outputs found
A New Secure Transmission Scheme With Outdated Antenna Selection
We propose a new secure transmission scheme in
the multi-input multi-output multi-eavesdropper wiretap channel.
In this channel, the NA-antenna transmitter adopts transmit
antenna selection (TAS) to choose the antenna that maximizes
the instantaneous signal-to-noise ratio (SNR) at the receiver to
transmit, while the NB-antenna receiver and the NE-antenna
eavesdropper adopt maximal-ratio combining (MRC) to combine
the received signals. We focus on the practical scenario where
the channel state information (CSI) during the TAS process is
outdated. In this scenario, we propose a new transmission scheme
to prevent the detrimental effect of the outdated CSI on the
wiretap codes design at the transmitter. To thoroughly assess
the secrecy performance achieved by the proposed scheme, we
derive new closed-form expressions for the exact secrecy outage
probability and the probability of non-zero secrecy capacity for
arbitrary SNRs. We also derive new compact expressions for the
asymptotic secrecy outage probability at high SNRs. Notably,
in the analysis we take spatial correlation at the receiver into
consideration. Apart from the advantage of our scheme over
the conventional TAS/MRC scheme, we demonstrate that the
outdated TAS reduces the secrecy diversity order from NANB
to NB. We also demonstrate that antenna correlation improves
the secrecy performance at low SNR but deteriorates the secrecy
performance at medium and high SNRs, by affecting the secrecy
array gain only.ARC Discovery Projects Grant DP150103905