We analyze and optimize the secrecy performance of artificial noise (AN) in multi-input single-output wiretap channels with multiple antennas at the transmitter and a single antenna at the receiver and the eavesdropper. We consider two transmission schemes: 1) an on-off transmission scheme with a constant secrecy rate for all transmission periods, and 2) an adaptive transmission scheme with a varying secrecy rate during each transmission period. For the on-off transmission scheme, an easy-to-compute expression is derived for the hybrid outage probability, which allows us to evaluate the transmission outage probability and the secrecy outage probability. For the adaptive transmission scheme where transmission outage does not occur...
Abstract—We study physical-layer security in wireless ad hoc networks and investigate two types of m...
We propose a secure transmission scheme for a relay wiretap channel, where a source communicates wi...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We investigate the optimal physical-layer secure transmission with artificial noise in the wiretap ...
We design a novel artificial-noise-aided secure onoff transmission scheme in a wiretap channel. We ...
We examine the secrecy performance of three artificial-noise-aided secure transmission schemes, nam...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We study physical-layer security in wireless ad hoc networks and investigate two types of multi-ante...
We design a novel artificial-noise-aided secure ON-OFF transmission scheme in a wiretap channel. We ...
We address the physical layer security question of whether a multiple antenna receiver can enhance t...
Physical layer security in wireless networks has received increasing attention in recent years. In t...
We propose a new secure transmission scheme in the multi-input multi-output multi-eavesdropper wire...
[[abstract]]The impact of quantized channel direction information (CDI) on the achievable secrecy ra...
Abstract — The artificial noise (AN) scheme, proposed by Goel and Negi, is being considered as one o...
We consider precoder and artificial noise (AN) design for multi-antenna wiretap channels under the f...
Abstract—We study physical-layer security in wireless ad hoc networks and investigate two types of m...
We propose a secure transmission scheme for a relay wiretap channel, where a source communicates wi...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We investigate the optimal physical-layer secure transmission with artificial noise in the wiretap ...
We design a novel artificial-noise-aided secure onoff transmission scheme in a wiretap channel. We ...
We examine the secrecy performance of three artificial-noise-aided secure transmission schemes, nam...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We study physical-layer security in wireless ad hoc networks and investigate two types of multi-ante...
We design a novel artificial-noise-aided secure ON-OFF transmission scheme in a wiretap channel. We ...
We address the physical layer security question of whether a multiple antenna receiver can enhance t...
Physical layer security in wireless networks has received increasing attention in recent years. In t...
We propose a new secure transmission scheme in the multi-input multi-output multi-eavesdropper wire...
[[abstract]]The impact of quantized channel direction information (CDI) on the achievable secrecy ra...
Abstract — The artificial noise (AN) scheme, proposed by Goel and Negi, is being considered as one o...
We consider precoder and artificial noise (AN) design for multi-antenna wiretap channels under the f...
Abstract—We study physical-layer security in wireless ad hoc networks and investigate two types of m...
We propose a secure transmission scheme for a relay wiretap channel, where a source communicates wi...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...